[1] H. He, J. Tian, M. Zhao, J. Xue, y K. Lu, «3D Medical...
Transcript of [1] H. He, J. Tian, M. Zhao, J. Xue, y K. Lu, «3D Medical...
[1] H. He, J. Tian, M. Zhao, J. Xue, y K. Lu, «3D Medical Imaging Computation and
Analysis Platform», Proc. IEEE Int. Conf. Industrial Technology ICIT 2006, 2006,
pág. 1160–1165.
[2] V. Sanchez, R. Abugharbieh, y P. Nasiopoulos, «3-D Scalable Medical Image
Compression With Optimized Volume of Interest Coding», IEEE, vol. 29, 2010, pág.
1808–1820.
[3] J. Li, R. Shekhar, y C. Papachristou, «A ―brick‖ caching scheme for 3D medical
imaging», Proc. IEEE Int Biomedical Imaging: Nano to Macro Symp, 2004, pág.
563–566.
[4] S. Sarkar, K. Ghosh, y K. Bhaumik, «A Bio-inspired Interpolation Kernel for
Medical Image Processing Implemented on DSP Processor», Proc. Int. Conf.
Advanced Computing and Communications ADCOM 2007, 2007, pág. 159–163.
[5] E.J. Gomez, F. del Pozo, E.J. Ortiz, N. Malpica, y H. Rahms, «A broadband
multimedia collaborative system for advanced teleradiology and medical imaging
diagnosis», IEEE, vol. 2, 1998, pág. 146–155.
[6] R.L. Sanford, J. Harris, y D. Stanley, «A conditional watershed technique for
mineral particle characterization from images», Proc. Conf Industry Applications
Society Annual Meeting Record of the 1994 IEEE, 1994, pág. 2140–2147.
[7] N. Khayati, W. Lejouad-Chaari, y S. Sevestre-Ghalila, «A distributed image
processing support system application to medical imaging», Proc. IEEE Int.
Workshop Imaging Systems and Techniques IST 2008, 2008, pág. 261–264.
[8] R. Chbeir y F. Favetta, «A global description of medical image with high
precision», Proc. IEEE Int Bio-Informatics and Biomedical Engineering Symp, 2000,
pág. 289–296.
[9] E. Kim, D. Shim, S. Jang, G. Kim, y W. Kim, «A global motion characterization
method using one-dimensional characteristic curves for image processing
applications», Proc. IEEE Int Circuits and Systems ISCAS ’97. Symp, 1997, pág.
1393–1396.
[10] J.N. Novak, B.E. Sumpio, P.A. Blume, J.D. Beaty, y J.D. Enderle, «A graphical
user interface and system to measure foot pressures in diabetic patients», Proc. IEEE
27th Annual Northeast Bioengineering Conf, 2001, pág. 25–26.
[11] L. Wenyin, T. Wang, y H.J. Zhang, «A hierarchical characterization scheme for
image retrieval», Proc. Int Image Processing Conf, 2000, pág. 42–45.
[12] S. Mondal, A. De, y P.K. Biswas, «A low power reprogrammable parallel
processing VLSI architecture for computation of B-spline based medical image
processing system for fast characterization of tiny objects suspended in cellular
fluid», Proc. 18th Int VLSI Design Conf, 2005, pág. 147–152.
[13] C.-C. Teng, J. Mitchell, C. Walker, A. Swan, C. Davila, D. Howard, y T. Needham,
«A medical image archive solution in the cloud», Proc. IEEE Int Software
Engineering and Service Sciences (ICSESS) Conf, 2010, pág. 431–434.
[14] Y. Anqing, «A Medical Ultrasound Image Filtering Method Study Based on
Mathematical Morphology and Self-Adaption», Proc. Int Measuring Technology and
Mechatronics Automation (ICMTMA) Conf, 2010, pág. 137–140.
[15] N. Maalej y J.G. Webster, «A miniature electrooptical force transducer», IEEE, vol.
35, 1988, pág. 93–98.
[16] A. Marazzi, P. Gamba, A. Mecocci, y E. Costamagna, «A mixed fractal/wavelet
based approach for characterization of textured remote sensing images», Proc. IEEE
Int. Geoscience and Remote Sensing IGARSS ’97. Remote Sensing - A Scientific
Vision for Sustainable Development, 1997, pág. 655–657.
[17] Y. Du, A. Song, L. Zhu, y W. Zhang, «A Mixed-Type Registration Approach in
Medical Image Processing», Proc. 2nd Int. Conf. Biomedical Engineering and
Informatics BMEI ’09, 2009, pág. 1–4.
[18] E. de Moraes Barros, M. Sehn, A. von Wangenheim, y D. Krechel, «A model for
distributed medical image processing using CORBA», Proc. 14th IEEE Symp.
Computer-Based Medical Systems CBMS 2001, 2001, pág. 189–194.
[19] L. Han y N.H. Clinthorne, «A modified statistical system model and an accelerated
Monte Carlo simulation for a silicon detector based Compton medical imaging
system», Proc. IEEE Nuclear Science Symp. Conf. Record (NSS/MIC), 2009, pág.
2908–2912.
[20] T.M. Lehmann, B.B. Wein, D. Keysers, M. Kohnen, y H. Schubert, «A
monohierarchical multiaxial classification code for medical images in content-based
retrieval», Proc. IEEE Int Biomedical Imaging Symp, 2002, pág. 313–316.
[21] J.A. Ware y I. Ciuca, «A neural network based integrated image processing
environment for object recognition in medical applications», Proc. Tenth IEEE Symp
Computer-Based Medical Systems, 1997, pág. 149–154.
[22] D.W. Kim, C.R. Ryu, S.C. Kim, y K.C. Nam, «A new diagnostic method for
detecting neuropathic diabetic foot by photo-plethysmography», Proc. 25th Annual
Int Engineering in Medicine and Biology Society Conf. of the IEEE, 2003, pág.
3130–3132.
[23] S. Pruna, C. Ionescu-Tirgoviste, O. Asiminei, y I. Mincu, «A new index of
autonomous function: relative conduction velocity», Proc. Annual Int Engineering in
Medicine and Biology Society Images of the Twenty-First Century. Conf. of the IEEE
Engineering in, 1989, pág. 1464–1465.
[24] A. Taki, A. Roodaki, O. Pauly, S.K. Setarehdan, G. Unal, y N. Navab, «A new
method for characterization of coronary plaque composition via IVUS images»,
Proc. IEEE Int. Symp. Biomedical Imaging: From Nano to Macro ISBI ’09, 2009,
pág. 787–790.
[25] A.A. Morsy y A. Hosny, «A new system for the assessment of diabetic foot planter
pressure», Proc. 26th Annual Int. Conf. of the IEEE Engineering in Medicine and
Biology Society IEMBS ’04, 2004, pág. 1376–1379.
[26] J. Kim, W. Cai, D. Feng, y H. Wu, «A New Way for Multidimensional Medical
Data Management: Volume of Interest (VOI)-Based Retrieval of Medical Images
With Visual and Functional Features», IEEE, vol. 10, 2006, pág. 598–607.
[27] R. Rohe y J.D. Valentine, «A novel Compton scatter camera design for in-vivo
medical imaging of radiopharmaceuticals», Proc. IEEE Nuclear Science Symp. and
Medical Imaging Conf. Record, 1995, pág. 1579–1583.
[28] I. Kotsia, S. Zafeiriou, y I. Pitas, «A Novel Discriminant Non-Negative Matrix
Factorization Algorithm With Applications to Facial Image Characterization
Problems», IEEE, vol. 2, 2007, pág. 588–595.
[29] Z. Hu, H. Zheng, y J. Gui, «A Novel Interactive Image Processing Approach for
DICOM Medical Image Data», Proc. 2nd Int. Conf. Biomedical Engineering and
Informatics BMEI ’09, 2009, pág. 1–4.
[30] S. Pavlopoulos, S. Dembeyiotis, G. Konnis, y D. Koutsouris, «A novel medical
image processing and management system-―NIKA‖», Proc. IEEE 17th Annual Conf.
Engineering in Medicine and Biology Society, 1995, pág. 765–766.
[31] V.I. Thajudin Ahamed, P. Dhanasekaran, N.G. Karthick, P.K. Joseph, A. Naseem, y
T.K. Abdul Jaleel, «A novel pattern recognition technique for quantification of heart
rate variability», Proc. Int. Conf. Biomedical and Pharmaceutical Engineering
ICBPE 2006, 2006, pág. 110–113.
[32] A. Yamani, «A novel pulse-echo technique for medical three-dimensional
imaging», IEEE, vol. 16, 1997, pág. 938–942.
[33] J. Tian, J. Xue, Y. Dai, J. Chen, y J. Zheng, «A Novel Software Platform for
Medical Image Processing and Analyzing», IEEE, vol. 12, 2008, pág. 800–812.
[34] J. Tian, J. Xue, Y. Dai, J. Chen, y J. Zheng, «A Novel Software Platform for
Medical Image Processing and Analyzing», IEEE, vol. 12, 2008, pág. 800–812.
[35] J. Li, C. Papachristou, y R. Shekhar, «A reconfigurable SoC architecture and
caching scheme for 3D medical image processing», Proc. 12th Annual IEEE Symp.
Field-Programmable Custom Computing Machines FCCM 2004, 2004, pág.
320–321.
[36] M. Altindas, A. Kilic, y C. Cinar, «A reliable surgical approach for the two-staged
amputation in unsalvageable limb and life threatening acute progressive diabetic foot
infections: Tibiotalar disarticulation with vertical crural incisions and secondary
transtibial amputation.», Foot Ankle Surg, vol. 17, Mar. 2011, pág. 13–18.
[37] S.Z. Beevi, M.M. Sathik, K. Senthamaraikannan, y J.H.J. Yasmin, «A robust fuzzy
clustering technique with spatial neighborhood information for effective medical
image segmentation: An efficient variants of fuzzy clustering technique with spatial
information for effective noisy medical image segmentation», Proc. Int Computing
Communication and Networking Technologies (ICCCNT) Conf, 2010, pág. 1–8.
[38] T. Yokota, M. Nagafuchi, Y. Mekada, T. Yoshinaga, K. Ootsu, y T. Baba, «A
scalable FPGA-based custom computing machine for a medical image processing»,
Proc. 10th Annual IEEE Symp. Field-Programmable Custom Computing Machines,
2002, pág. 307–308.
[39] C. Striletchi, L.D. Chiorean, y M.F. Vaida, «A secured distributed medical
application endowed with image processing facilities», Proc. 9th Int Electronics and
Telecommunications (ISETC) Symp, 2010, pág. 345–348.
[40] G. Boccignone, A. Chianese, M. De Santo, y A. Picariello, «A software architecture
for medical image processing stations», Proc. ICIP-94. Conf. IEEE Int Image
Processing, 1994, pág. 801–805.
[41] A. Matami, Y. Ban, O. Oshiro, y K. Chihara, «A system for superimposing a
medical image within the subject», Proc. 18th Annual Int. Conf. of the IEEE
Bridging Disciplines for Biomedicine Engineering in Medicine and Biology Society,
1996, pág. 637–638.
[42] Z. Feng, S. Chi, J. Yin, D. Zhao, y X. Liu, «A Variational Approach to Medical
Image Inpainting Based on Mumford-Shah Model», Proc. Int Service Systems and
Service Management Conf, 2007, pág. 1–5.
[43] A. Pizurica, W. Philips, I. Lemahieu, y M. Acheroy, «A versatile wavelet domain
noise filtration technique for medical imaging», IEEE, vol. 22, 2003, pág. 323–331.
[44] M.P. Miri, H. Pooshfam, M. Rajeswari, y D. Ramachandram, «A Web-Based
Framework for Distributed Medical Image Processing Using Image Markup
Language (IML)», Proc. Third UKSim European Symp. Computer Modeling and
Simulation EMS ’09, 2009, pág. 470–475.
[45] W.-H. Cheng y C.-C. Lu, «Acceleration of Medical Image Registration Using
Graphics Process Units in Computing Normalized Mutual Information», Proc. Fifth
Int. Conf. Image and Graphics ICIG ’09, 2009, pág. 814–818.
[46] F. Molinari, W. Liboni, E. Pavanelli, P. Giustetto, S. Badalamenti, y J.S. Suri,
«Accurate and Automatic Carotid Plaque Characterization in Contrast Enhanced 2-D
Ultrasound Images», Proc. 29th Annual Int. Conf. of the IEEE Engineering in
Medicine and Biology Society EMBS 2007, 2007, pág. 335–338.
[47] K.L. Chan, «Adaptation of ultrasound image texture characterization parameters»,
Proc. 20th Annual Int Engineering in Medicine and Biology Society Conf. of the
IEEE, 1998, pág. 804–807.
[48] T.M. Lehmann, C. Gonner, y K. Spitzer, «Addendum: B-spline interpolation in
medical image processing», IEEE, vol. 20, 2001, pág. 660–665.
[49] C.A. Rodrigues, S.C.D. Pitto, L.D.F. Costa, R.M. Faria, N.C. de Souza, O.N.
Oliveira, I.H. Bechtold, E.A. Oliveira, y J.J. Bonvent, «Advanced image
characterization in scanning probe microscopy», Proc. XIV Brazilian Symp.
Computer Graphics and Image Processing, 2001.
[50] B. Wiecek, R. Danych, Z. Zwolenik, A. Jung, y J. Zuber, «Advanced thermal image
processing for medical and biological applications», Proc. 23rd Annual Int
Engineering in Medicine and Biology Society Conf. of the IEEE, 2001, pág.
2805–2807.
[51] T. Taxt, A. Lundervold, J. Strand, y S. Holm, «Advances in medical imaging»,
Proc. Fourteenth Int Pattern Recognition Conf, 1998, pág. 505–508.
[52] L.C. Zhang, E.M.C. Wong, L.M. Koh, y L.S. Ng, «An adaptive filter for speckle
reduction in medical ultrasound image processing», Proc. ICARCV 2004 8th
Control, Automation, Robotics and Vision Conf, 2004, pág. 654–658.
[53] M. Karaman, M.A. Kutay, y G. Bozdagi, «An adaptive speckle suppression filter
for medical ultrasonic imaging», IEEE, vol. 14, 1995, pág. 283–292.
[54] T. Twellmann, O. Lichte, y T.W. Nattkemper, «An adaptive tissue characterization
network for model-free visualization of dynamic contrast-enhanced magnetic
resonance image data», IEEE, vol. 24, 2005, pág. 1256–1266.
[55] Y. Hu, X. Jiang, F. Xin, T. Zhang, J. Yuan, L. Zhai, y C. Guo, «An algorithm on
processing medical image based on rough-set and genetic algorithm», Proc. Int.
Conf. Information Technology and Applications in Biomedicine ITAB 2008, 2008,
pág. 109–111.
[56] A. Bevilacqua, A. Gherardi, y L. Carozza, «An Automatic System for the
Real-Time Characterization of Vehicle Headlamp Beams Exploiting Image
Analysis», IEEE, vol. 59, 2010, pág. 2630–2638.
[57] T. Bernard, C. D’Elia, R. Kabadi, y N. Wong, «An early detection system for foot
ulceration in diabetic patients», Proc. IEEE 35th Annual Northeast Bioengineering
Conf, 2009, pág. 1–2.
[58] M.-K. Kim, E. Kim, D. Shim, S.-I. Jang, G. Kim, y W. Kim, «An efficient global
motion characterization method for image processing applications», IEEE, vol. 43,
1997, pág. 1010–1018.
[59] C. Tiejian, W. Yaonan, Z. Hui, y X. Changyan, «An embedded 3D medical image
processing and visualization platform based on dual-core processor», Proc. 8th
World Congress Intelligent Control and Automation (WCICA), 2010, pág.
2936–2941.
[60] C. Tiejian, W. Yaonan, Z. Hui, y X. Changyan, «An embedded 3D medical image
processing and visualization platform based on dual-core processor», Proc. 8th
World Congress Intelligent Control and Automation (WCICA), 2010, pág.
2936–2941.
[61] K. Denecker, J. van Overloop, y I. Lemahieu, «An experimental comparison of
several lossless image coders for medical images», Proc. Data Compression Conf.
DCC ’97, 1997.
[62] R. Ohyama y K. Kaneko, «An experimental study of the optical characterization of
AC electrohydrodynamic fields by particle image velocimetry», Proc. Conf.
Electrical Insulation and Dielectric Phenomena IEEE 1997 Annual Report, 1997,
pág. 656–659.
[63] W.A. Deabes y M.A. Abdelrahman, «An Image Processing Approach for Surface
Characterization of the Foam Patterns», Proc. Thirty-Ninth Southeastern Symp.
System Theory SSST ’07, 2007, pág. 71–75.
[64] P. Rajendran, M. Madheswaran, y K. Naganandhini, «An improved pre-processing
technique with image mining approach for the medical image classification», Proc.
Int Computing Communication and Networking Technologies (ICCCNT) Conf, 2010,
pág. 1–7.
[65] I. Maglogiannis, S. Pavlopoulos, y D. Koutsouris, «An integrated computer
supported acquisition, handling, and characterization system for pigmented skin
lesions in dermatological images», IEEE, vol. 9, 2005, pág. 86–98.
[66] K.B.R. O’Connor, W.R. Stewart, y J.A. Ware, «An interactive medical image
processing system based on a hybrid computer architecture», Proc. IEE Colloquium
High Performance Architectures for Real-Time Image Processing (Ref. No.
1998/197), 1998.
[67] G. Kreider, B.G.M. Dillen, H. Heijns, L. Korthout, y E. Roks, «An mK×nK
bouwblok CCD image sensor family. II. Characterization», IEEE, vol. 49, 2002, pág.
370–376.
[68] D. Cosic, «An open medical imaging workstation architecture for
platform-independent 3-D medical image processing and visualization», IEEE, vol.
1, 1997, pág. 279–283.
[69] D. Cosic, «An open medical imaging workstation architecture for
platform-independent 3-D medical image processing and visualization», IEEE, vol.
1, 1997, pág. 279–283.
[70] A. Coronato, G. De Pietro, y I. Marra, «An Open-source Software Architecture for
Immersive Medical Imaging», Proc. IEEE Int Virtual Environments,
Human-Computer Interfaces and Measurement Systems Conf, 2006, pág. 166–170.
[71] Z. Da-Zhe, L. Wei, y Y. Jin-Zhu, «An XML-based process definition language for
medical image understanding», Proc. Int Computer Application and System
Modeling (ICCASM) Conf, 2010.
[72] A. Mojsilovic, M. Popovic, A. Popovic, A. Neskovic, y V. Obradovic, «Analysis
and characterization of myocardial tissue with the wavelet image extension [US
images]», Proc. Conf. Int Image Processing, 1995, pág. 504–507.
[73] D. Qi y L. Yu, «Analysis and processing of medical CT image based multifractal
theory», Proc. Chinese Control and Decision Conf. CCDC 2008, 2008, pág.
2168–2173.
[74] G. Pais, F. Deloule, D. Beauchene, y P. Lambert, «Animated movie activity
characterization by image and text information fusion», Proc. 12th Int. Conf.
Information Fusion FUSION ’09, 2009, pág. 1068–1075.
[75] J.L. Rose, N. Hodiwalla, y J. Zhang, «Anisotropy influence on B-scan imaging and
tissue characterization», Proc. Ultrasonics Symp. IEEE 1992, 1992, pág. 1077–1082.
[76] F. Derraz, M. Beladgham, y M. Khelif, «Application of active contour models in
medical image segmentation», Proc. Int. Conf. Information Technology: Coding and
Computing ITCC 2004, 2004, pág. 675–681.
[77] N. Srinivasan y V. Vaidehi, «Application of cluster computing in medical image
processing», Proc. 2nd Int. Conf. Broadband Networks BroadNets 2005, 2005, pág.
1007–1010.
[78] N.K. Rana, «Application of Force Sensing Resistor (FSR) in Design of Pressure
Scanning System for Plantar Pressure Measurement», Proc. Second Int. Conf.
Computer and Electrical Engineering ICCEE ’09, 2009, pág. 678–685.
[79] W.S. Gan, «Application of fuzzy neural networks to medical image processing»,
Proc. Int Neural Networks IJCNN. Joint Conf, 1992, pág. 386–391.
[80] J.B. Cunha, «Application of image processing techniques in the characterization of
plant leafs», Proc. IEEE Int. Symp. Industrial Electronics ISIE ’03, 2003, pág.
612–616.
[81] F.S. Casciani y M.E. Parham, «Application of Neural Net Analysis to Calculate
Wound Healing with Dermagraft in the Treatment of Diabetic Foot Ulcers», Proc.
17th Southern Biomedical Engineering Conf, 1998.
[82] D.-Z. Tian y M.-H. Ha, «Applications of wavelet transform in medical image
processing», Proc. Int Machine Learning and Cybernetics Conf, 2004, pág.
1816–1821.
[83] E.S. Papazoglou, M.S. Weingarten, L. Zubkov, M. Neidrauer, y K. Pourrezaei,
«Assessment of diabetic foot ulcers with diffuse near infrared methodology», Proc.
8th IEEE Int. Conf. BioInformatics and BioEngineering BIBE 2008, 2008, pág. 1–5.
[84] C.-H. Lin, S.-M. Pan, y Y.-C. Du, «Assessment of peripheral vascular occlusive
disease using adaptive network-based fuzzy inference system», Proc. Int Computer
Communication Control and Automation (3CA) Symp, 2010, pág. 223–226.
[85] Y. Mahler, M. Nitzan, H. Aner, y G. Beer, «Assessment of specific microvascular
resistance by a transient thermal clearance method», Proc. Annual Int Engineering in
Medicine and Biology Society Conf. of the IEEE, 1988.
[86] V.A. Chakkarwar, M.S. Joshi, y P.S. Revankar, «Automated analysis of gestational
sac in medical image processing», Proc. IEEE 2nd Int. Advance Computing Conf.
(IACC), 2010, pág. 304–309.
[87] A. Shimizu, X.-R. Zhou, J. Hasegawa, y J. Toriwaki, «Automated construction of
three dimensional image processing procedures by pictorial example with application
to medical images», Proc. 18th Annual Int. Conf. of the IEEE Bridging Disciplines
for Biomedicine Engineering in Medicine and Biology Society, 1996, pág.
1173–1175.
[88] S. Rodriguez, A. Picon, J.A. Gutierrez, A. Bereciartua, y P. Iriondo, «Automatic
slag characterization based on hyperspectral image processing», Proc. IEEE Conf.
Emerging Technologies and Factory Automation (ETFA), 2010, pág. 1–4.
[89] Y. Yang, H. Lin, Z. Guo, Z. Fang, y J. Jiang, «Automatic tracking and
characterization of multiple moving clouds in satellite images», Proc. IEEE Int
Systems, Man and Cybernetics Conf, 2004, pág. 3088–3093.
[90] J.G. Miller, J.E. Perez, S.A. Wickline, S.L. Baldwin, B. Barzilai, V. Davila-Roman,
R.J. Fedewa, A.E. Finch-Johnston, C.S. Hall, S.M. Handley, F.D. Hockett, M.R.
Holland, A. Kovacs, G.M. Lanza, S.H. Lewis, J.N. Marsh, J. Mobley, D.E. Sosnovik,
R.L. Trousil, K.D. Wallace, y K.R. Waters, «Backscatter imaging and myocardial
tissue characterization», Proc. IEEE Ultrasonics Symp., 1998, pág. 1373–1383.
[91] S.A. Wickline, J.G. Miller, D. Recchia, A.M. Sharkey, S.L. Bridal, y D.H. Christy,
«Beyond intravascular imaging: quantitative ultrasonic tissue characterization of
vascular pathology», Proc. IEEE Ultrasonics Symp., 1994, pág. 1589–1597.
[92] A.V. Corry, M. Ingstrup, y S.B. Larsen, «Beyond the Archive: Thinking CSCW
into EHRs for Home Care», Proc. Pervasive Health Conf. and Workshops, 2006,
pág. 1–10.
[93] K.A. Myers, J.P. Klein, J.J. Wertsch, D. Janisse, y G.F. Harris, «Biomechanics of
the negative heel rocker sole shoe: gait kinematics and kinetics», Proc. 25th Annual
Int Engineering in Medicine and Biology Society Conf. of the IEEE, 2003, pág.
1885–1888.
[94] V. de Castro, M.L. Sanz, y E. Marcos, «Business Process Development based on
Web Services: a Web Information System for Medical Image Management and
Processing», Proc. Int. Conf. Web Services ICWS ’06, 2006, pág. 807–814.
[95] U. Demirci, O. Oralkan, J.A. Johnson, A.S. Ergun, M. Karaman, y B.T.
Khuri-Yakub, «Capacitive micromachined ultrasonic transducer arrays for medical
imaging: experimental results», Proc. IEEE Ultrasonics Symp, 2001, pág. 957–960.
[96] F. Vignon y M.R. Burcher, «Capon beamforming in medical ultrasound imaging
with focused beams», IEEE, vol. 55, 2008, pág. 619–628.
[97] S. Wongthanavasu y V. Tangvoraphonkchai, «Cellular Automata-Based Algorithm
and its Application in Medical Image Processing», Proc. IEEE Int. Conf. Image
Processing ICIP 2007, 2007.
[98] W.X. Wang, L. Li, y Z. Yuan, «Ceramic Material Surfaces Characterization by
Image Technique», Proc. Conf. Int Communications, Circuits and Systems, 2006,
pág. 446–449.
[99] J.S. Lee, J. Shah, M.E. Jernigan, y R. Hornsey, «Characterization and deblurring of
lateral crosstalk in CMOS image sensors», IEEE, vol. 50, 2003, pág. 2361–2368.
[100] M.K. Griffin, S.M. Hsu, H.H.K. Burke, y J.W. Snow, «Characterization and
delineation of plumes, clouds and fires in hyperspectral images», Proc. IEEE 2000
Int. Geoscience and Remote Sensing Symp IGARSS 2000, 2000, pág. 809–812.
[101] A.I. Bachir, N. Durisic, B. Hebert, P. Grutter, y P.W. Wiseman, «Characterization
of blinking dynamics in quantum dot ensembles using image correlation
spectroscopy», Journal of Applied Physics, vol. 99, 2006, pág. 064503.
[102] F. Germain, A. Doisy, X. Ronot, y P. Tracqui, «Characterization of cell deformation
and migration using a parametric estimation of image motion», IEEE, vol. 46, 1999,
pág. 584–600.
[103] L.I. Perlovsky, J.J. Jaskolski, y J. Chernick, «Characterization of clutter in IR
images using maximum likelihood adaptive neural system», Proc. Conf Signals,
Systems and Computers Record of The Twenty-Sixth Asilomar Conf, 1992, pág.
1076–1080.
[104] D.S. Montgomery, A. Nobile, y P.J. Walsh, «Characterization of National Ignitition
Facility cryogenic beryllium capsules using x-ray phase contrast imaging», Review of
Scientific Instruments, vol. 75, 2004, pág. 3986–3988.
[105] N.A. Rawashdeh, O. Martinez, M. Quiroga, y K.D. Donohue, «Characterization of
printer banding in regions of complex image content», Proc. IEEE SoutheastCon,
2007, pág. 433–438.
[106] Y.S. Kashyap, T. Roy, P.S. Sarkar, P.S. Yadav, M. Shukla, A. Sinha, K. Dasgupta,
y D. Sathiyamoorthy, «Characterization of pyrocarbon coated materials using
laboratory based x-ray phase contrast imaging technique», Review of Scientific
Instruments, vol. 78, 2007, pág. 083703.
[107] K.G.F. Janssens, O. Van der Biest, J. Vanhellemont, H.E. Maes, y R. Hull,
«Characterization of strain in an advanced semiconductor laser structure with
nanometer range resolution using a new algorithm for electron diffraction contrast
imaging interpretation», Applied Physics Letters, vol. 67, 1995, pág. 1530–1532.
[108] E. Albuquerque, F.G. Almeida, P. Almeida, E. Auffray, J. Barbosa, A.L. Bastos, V.
Bexiga, R. Bugalho, C. Cardoso, S. Carmona, J.F. Carneiro, B. Carrico, C.S.
Ferreira, N.C. Ferreira, M. Ferreira, M. Frade, F. Goncalves, C. Guerreiro, P. Lecoq,
C. Leong, P. Lousa, P. Machado, M.V. Martins, N. Matela, R. Moura, J. Neves, P.
Neves, N. Oliveira, C. Ortigao, F. Piedade, J.F. Pinheiro, P. Relvas, A. Rivetti, P.
Rodrigues, I. Rolo, A.I. Santos, J. Santos, M.M. Silva, S. Tavernier, I.C. Teixeira,
J.P. Teixeira, J.C. Silva, R. Silva, A. Trindade, y J. Varela, «Characterization of the
Clear-PEM breast imaging scanner performance», Proc. IEEE Nuclear Science
Symp. Conf. Record (NSS/MIC), 2009, pág. 3487–3490.
[109] K. Mizoguchi, Y. Yamauchi, H. Harima, S.-ichi Nakashima, T. Ipposhi, y Y. Inoue,
«Characterization of thermally annealed thin silicon films on insulators by Raman
image measurement», Journal of Applied Physics, vol. 78, 1995, pág. 3357–3361.
[110] A. Mojsilovic, M. Popovic, S. Markovic, y M. Krstic, «Characterization of visually
similar diffuse diseases from B-scan liver images using nonseparable wavelet
transform», IEEE, vol. 17, 1998, pág. 541–549.
[111] L. Costas y J.J. Rodriguez-Andina, «Characterization of wavelet-based image
coding systems for algorithmic fault detection», Proc. 8th Euromicro Conf. Digital
System Design, 2005, pág. 64–71.
[112] H.-P. Meinzer, «Clinical applications of medical imaging - the 3rd millennium
project», Proc. ITI 5th Int. Conf. Information and Communications Technology
ICICT 2007, 2007.
[113] R. Segal, I. Shcherback, y O. Yadid-Pecht, «CMOS Image Sensors:
Two-Dimensional MTF for Anisotropic Resolution Characterization», IEEE, vol. 7,
2007, pág. 947–952.
[114] M.R. Ogiela, R. Tadeusiewicz, y L. Ogiela, «Cognitive vision techniques in medical
image processing and analysis», Proc. 7th Int. Workshop Enterprise networking and
Computing in Healthcare Industry HEALTHCOM 2005, 2005, pág. 120–123.
[115] P. Bharti, S. Gupta, y R. Bhatia, «Comparative Analysis of Image Compression
Techniques: A Case Study on Medical Images», Proc. Int. Conf. Advances in Recent
Technologies in Communication and Computing ARTCom ’09, 2009, pág. 820–822.
[116] M.Y. Kaputin, D.V. Ovcharenko, S.A. Platonov, y S.P. Chistyakov, «Comparative
analysis of remote results of transluminal balloon angioplasty in treatment of lower
limb critical ischaemia in groups of patients with and without diabetes mellitus.»,
Angiol Sosud Khir, vol. 16, 2010, pág. 41–46.
[117] L. Zhang, J. Chen, Y. Zhu, y J. Luo, «Comparisons of Several New De-Noising
Methods for Medical Images», Proc. 3rd Int. Conf. Bioinformatics and Biomedical
Engineering ICBBE 2009, 2009, pág. 1–4.
[118] A. Popescu, I. Gavat, y M. Datcu, «Complex SAR image characterization using
space variant spectral analysis», Proc. IEEE Radar Conf. RADAR ’08, 2008, pág.
1–4.
[119] P.F. Whelan, «Computer Aided Detection of Polyps: A Medical Application of
Image Processing & Analysis», Proc. IET Irish Signals and Systems Conf, 2006, pág.
5–8.
[120] E. Kyriacou, S. Pavlopoulos, G. Konnis, D. Koutsouris, P. Zoumpoulis, y L.
Theotokas, «Computer assisted characterization of diffused liver disease using image
texture analysis techniques on B-scan images», Proc. IEEE Nuclear Science Symp,
1997, pág. 1479–1483.
[121] N. Gal y V. Stoicu-Tivadar, «Computer assisted medical image interpretation using
fuzzy logic», Proc. 4th Int Soft Computing Applications (SOFA) Workshop, 2010,
pág. 159–163.
[122] D. Hui, W. Guangzhi, H. Bo, Z. Yiyi, Y. Zhi, M. Meng, y G. ShangKai,
«Construction of a Knowledge Center for Medical Image Processing», Proc. 27th
Annual Int. Conf. of the Engineering in Medicine and Biology Society IEEE-EMBS
2005, 2005, pág. 82–85.
[123] D. Hui, W. Guangzhi, H. Bo, Z. Yiyi, Y. Zhi, M. Meng, y G. ShangKai,
«Construction of a Knowledge Center for Medical Image Processing», Proc. 27th
Annual Int. Conf. of the Engineering in Medicine and Biology Society IEEE-EMBS
2005, 2005, pág. 82–85.
[124] M. Belkhatir, «Coupling Visual Semantics and High-Level Relational
Characterization within a Transparent and Penetrable Image Retrieval Framework»,
Proc. 19th IEEE Int. Conf. Tools with Artificial Intelligence ICTAI 2007, 2007, pág.
565–568.
[125] J. Han y Y. Jia, «CT Image Processing and Medical Rapid Prototyping», Proc. Int.
Conf. BioMedical Engineering and Informatics BMEI 2008, 2008, pág. 67–71.
[126] T.R. Gururaja y R.K. Panda, «Current status and future trends in ultrasonic
transducers for medical imaging applications», Proc. Eleventh IEEE Int. Symp.
Applications of Ferroelectrics ISAF 98, 1998, pág. 223–228.
[127] A. Stoian, R. Ivan, I. Stoian, y A. Marichescu, «Current trends in medical imaging
acquisition and communication», Proc. IEEE Int. Conf. Automation, Quality and
Testing, Robotics AQTR 2008, 2008, pág. 94–99.
[128] C.C. Chang, M.Y. Lee, y S.H. Wang, «Customized foot pressure redistribution
insole design using image-based rapid pressure measuring system», Proc. ISIC
Systems, Man and Cybernetics IEEE Int. Conf, 2007, pág. 2945–2950.
[129] C. Vaduva, D. Faur, y I. Gavat, «Data mining and spatial reasoning for satellite
image characterization», Proc. 8th Int Communications (COMM) Conf, 2010, pág.
173–176.
[130] B. Regrain, E. Boix, C. Odet, y H. Benoit-Cattin, «DaVaW: a python library for
medical image processing applications», Proc. IEEE Int. Conf. Image Processing
ICIP 2005, 2005.
[131] S.V. Kemmerrer y D.K. Bagley, «Dermagraft® scale-up case study», Proc.
Second Joint Engineering in Medicine and Biology 24th Annual Conf. and the
Annual Fall Meeting of the Biomedical Engineering Society EMBS/BMES Conf,
2002, pág. 879–880.
[132] C. Niclass, A. Rochas, P.-A. Besse, y E. Charbon, «Design and characterization of a
CMOS 3-D image sensor based on single photon avalanche diodes», IEEE, vol. 40,
2005, pág. 1847–1854.
[133] I. Brouk, K. Alameh, y Y. Nemirovsky, «Design and Characterization of
CMOS/SOI Image Sensors», IEEE, vol. 54, 2007, pág. 468–475.
[134] V.V. Aishwarya y V.T. Bai, «Design and development of an embedded system for
measuring hardness of foot in diabetic patients», Proc. IEEE Conf. Sustainable
Utilization and Development in Engineering and Technology (STUDENT), 2010,
pág. 81–85.
[135] J.Z. Hao, K.M. Tan, S.C. Tjin, C.Y. Liaw, P.R. Chaudhuri, X. Guo, y C. Lu,
«Design of a foot-pressure monitoring transducer for diabetic patients based on FBG
sensors», Proc. 16th Annual Meeting of the IEEE Lasers and Electro-Optics Society
LEOS 2003, 2003, pág. 23–24.
[136] X. Guo y X. Zhang, «Design of medical image processing system for water-jet
debriding apparatus based on ADSP-BF561», Proc. 3rd Int Biomedical Engineering
and Informatics (BMEI) Conf, 2010, pág. 1463–1467.
[137] Y. Wahab, A. Zayegh, R.K. Begg, y R. Veljanovski, «Design of MEMS biomedical
pressure sensor for gait analysis», Proc. IEEE Int. Conf. Semiconductor Electronics
ICSE 2008, 2008, pág. 166–169.
[138] A. Steel y D. Brunner, «Detection and Characterization of Urban Objects from
VHR Optical Image Data», Proc. IEEE Int. Geoscience and Remote Sensing Symp.
IGARSS 2008, 2008.
[139] D.W. Kim, S.W. Kim, S.C. Kim, K.C. Nam, E.S. Kang, y J.J. Im, «Detection of
Diabetic Neuropathy Using Blood Volume Ratio of Finger and Toe by PPG», Proc.
29th Annual Int. Conf. of the IEEE Engineering in Medicine and Biology Society
EMBS 2007, 2007, pág. 2211–2214.
[140] F. Prior, P.K. Commean, T. Ju, M. Hastings, C. Hildebolt, y D.R. Sinacore,
«Developing a biomarker for neuropathic arthropathy in diabetic patients», Proc.
IEEE/NIH Life Science Systems and Applications Workshop LISA 2007, 2007, pág.
13–16.
[141] Y.J. Zhao y J.R. Lin, «Development of a low-cost medical image processing
system», Proc. Annual Int Engineering in Medicine and Biology Society Conf. of the
IEEE, 1988, pág. 495–496.
[142] E.Y. Lim, C. Lee, W. Cai, D. Feng, y M. Fulham, «Development of an Electronic
Medical Report Delivery System to 3G GSM Mobile (Cellular) Phones for a Medical
Imaging Department», Proc. 29th Annual Int. Conf. of the IEEE Engineering in
Medicine and Biology Society EMBS 2007, 2007, pág. 6726–6729.
[143] I. Fujimasa, H. Nakazawa, y E. Miyasaka, «Development of an image processing
software for medical thermogram analysis using a commercially available image
processing system», Proc. 20th Annual Int Engineering in Medicine and Biology
Society Conf. of the IEEE, 1998, pág. 956–958.
[144] S.S. Devi y K. Vidhya, «Development of Medical Image Compression
Techniques», Proc. Int Conf. Computational Intelligence and Multimedia
Applications Conf, 2007, pág. 97–101.
[145] V.J. Thomas, K.M. Patil, S. Radhakrishnan, V.B.N. Murthy, y R. Parivalavan,
«Diabetic feet at risk of plantar ulcers: a new method of analysis of walking foot
pressure images with changes in foot sole properties», Proc. TENCON 2003. Conf.
Convergent Technologies for Asia-Pacific Region, 2003, pág. 1320–1324.
[146] E.M. Awad y D. Tremaine, «Diabetic foot advisor», Proc. Mexico-USA
Collaboration in Intelligent Systems Technologies ISAI/IFIS 1996, 1996, pág.
299–305.
[147] C. Cavaro-Menard, L. Zhang, y P. Le Callet, «Diagnostic quality assessment of
medical images: Challenges and trends», Proc. 2nd European Workshop Visual
Information Processing (EUVIP), 2010, pág. 277–284.
[148] H.C. Bheemul, G. Lu, y Y. Yan, «Digital imaging-based three-dimensional
characterization of flame front structures in a turbulent flame», IEEE, vol. 54, 2005,
pág. 1073–1078.
[149] C.C. Shaw, «Dimensions in Medical Imaging: The More the Better? [Point of
View]», IEEE, vol. 98, 2010, pág. 2–5.
[150] I. Krekule, M. Capek, y M. Spunda, «Distant processing of medical image data»,
Proc. IEEE Int. Conf. Information Technology Applications in Biomedicine ITAB 98,
1998, pág. 57–59.
[151] R.A. Brown, H. Zhu, y J.R. Mitchell, «Distributed vector Processing of a new local
MultiScale Fourier transform for medical imaging applications», IEEE, vol. 24,
2005, pág. 689–691.
[152] P.-T. Yap, G. Wu, y D. Shen, «DSPs See Gains in Their Impact on New Medical
Imaging Designs [Special Reports]», IEEE, vol. 27, 2010, pág. 6–134.
[153] M.-F. Vaida y V. Todica, «Dynamic Adaptability of Image Processing Components
in Medical Applications», Proc. Int. Symp. Signals, Circuits and Systems ISSCS
2007, 2007, pág. 1–4.
[154] M. Gudmundsson, E.A. El-Kwae, y M.R. Kabuka, «Edge detection in medical
images using a genetic algorithm», IEEE, vol. 17, 1998, pág. 469–474.
[155] Z. Xue-jun, G. Hong, Z. Yun-ting, L. Ying, y G. Li, «Educational Practice of
Computer Science in Medical Imaging», Proc. Second Int Education Technology and
Computer Science (ETCS) Workshop, 2010, pág. 546–549.
[156] M. Zequera, S. Stephan, y J. Paul, «Effectiveness of Moulded Insoles in Reducing
Plantar Pressure in Diabetic Patients», Proc. 29th Annual Int. Conf. of the IEEE
Engineering in Medicine and Biology Society EMBS 2007, 2007, pág. 4671–4674.
[157] J.J. Van Bogart, J.T. Long, J.P. Klein, J.J. Wertsch, D.J. Janisse, y G.F. Harris,
«Effects of the toe-only rocker on gait kinematics and kinetics in able-bodied
persons», IEEE, vol. 13, 2005, pág. 542–550.
[158] S. Klein, M. Staring, K. Murphy, M.A. Viergever, y J. Pluim, «elastix: A Toolbox
for Intensity-Based Medical Image Registration», IEEE, vol. 29, 2010, pág.
196–205.
[159] E.J.G. Peters, J. Bosma, D.G. Armstrong, y L.A. Lavery, «Electrical Stimulation to
Heal Diabetic Foot Ulcers», Proc. 17th Southern Biomedical Engineering Conf,
1998.
[160] B.R. Whiting, S. Seshadri, y J.F. Owen, «Electronic imaging for medical
applications now and in the future», Summaries of papers presented at the Conf.
Lasers and Electro-Optics CLEO ’96, 1996.
[161] F. Dabiri, A. Vahdatpour, H. Noshadi, H. Hagopian, y M. Sarrafzadeh, «Electronic
orthotics shoe: Preventing ulceration in diabetic patients», Proc. 30th Annual Int.
Conf. of the IEEE Engineering in Medicine and Biology Society EMBS 2008, 2008,
pág. 771–774.
[162] M.-F. Vaida, «Essential quantitative and statistics parameters in a dedicated assisted
medical image processing application», Proc. 26th Int Information Technology
Interfaces Conf, 2004, pág. 259–264.
[163] L. Thompson, H. Jelinek, y D. Cornforth, «Establishing normative data for
peripheral arterial disease using pulse wave analysis», Proc. Int. Conf. Intelligent
Sensors, Sensor Networks and Information Processing ISSNIP 2008, 2008, pág.
351–356.
[164] D. Yudovsky, A. Nouvong, y L. Pilon, «Evaluation of diabetic foot ulcer
development using hyperspectral imaging», Proc. IEEE Photonics Society Winter
Topicals Meeting Series (WTM), 2010, pág. 72–73.
[165] R. Taylor, N. Vine, A. York, S. Lerner, D. Hart, J. Howland, L. Prasad, L. Mayer, y
S. Gallager, «Evolution of a benthic imaging system from a towed camera to an
automated habitat characterization system», Proc. OCEANS 2008, 2008, pág. 1–7.
[166] P.-L. Chang y W.-G. Teng, «Exploiting the Self-Organizing Map for Medical
Image Segmentation», Proc. Twentieth IEEE Int. Symp. Computer-Based Medical
Systems CBMS ’07, 2007, pág. 281–288.
[167] C.L. Ramanujam, Z. Facaros, y T. Zgonis, «External fixation for surgical
off-loading of diabetic soft tissue reconstruction.», Clin Podiatr Med Surg, vol. 28,
Ene. 2011, pág. 211–216.
[168] Y. Keselman y E. Micheli-Tzanakou, «Extraction and characterization of regions of
interest in biomedical images», Proc. IEEE Int. Conf. Information Technology
Applications in Biomedicine ITAB 98, 1998, pág. 87–90.
[169] Y. Lu y J.M. Morris, «Fast design of Gabor filters [medical image processing
application]», Proc. 16th Annual Int. Conf. of the IEEE Engineering Advances: New
Opportunities for Biomedical Engineers Engineering in Medicine and Biology
Society, 1994, pág. 1334–1335.
[170] H. Zhou, Q. Cheng, y M. Zargham, «Fast Fusion of Medical Images Based on
Bayesian Risk Minimization and Pixon Map», Proc. Int. Conf. Computational
Science and Engineering CSE ’09, 2009, pág. 1086–1091.
[171] C.S. Leo y H. Schroder, «Fast processing of medical images using a new parallel
architecture, the Hybrid System», Proc. Fifth IEEE Southwest Symp. Image Analysis
and Interpretation, 2002, pág. 148–152.
[172] P.A. Linares, P.J. McCullagh, N.D. Black, y J. Dornan, «Feature selection for the
characterization of ultrasonic images of the placenta using texture classification»,
Proc. IEEE Int Biomedical Imaging: Nano to Macro Symp, 2004, pág. 1147–1150.
[173] P.R. Schwoebelt, C.E. Holland, y C.A. Spindt, «Field Emission Arrays for
Tomographic Medical X-Ray Imaging», Proc. IEEE Int. Vacuum Electronics Conf.
held Jointly with 2006 IEEE Int. Vacuum Electron Sources, 2006.
[174] P. Dillinger, J.F. Vogelbruch, J. Leinen, S. Suslov, R. Patzak, H. Winkler, y K.
Schwan, «FPGA based real-time image segmentation for medical systems and data
processing», Proc. 14th IEEE-NPSS Real Time Conf, 2005.
[175] P. Dillinger, J.F. Vogelbruch, J. Leinen, S. Suslov, R. Patzak, H. Winkler, y K.
Schwan, «FPGA-Based Real-Time Image Segmentation for Medical Systems and
Data Processing», IEEE, vol. 53, 2006, pág. 2097–2101.
[176] M.W. Clemens y C.E. Attinger, «Functional reconstruction of the diabetic foot.»,
Semin Plast Surg, vol. 24, Feb. 2010, pág. 43–56.
[177] M. Fernando, K. Busawon, M. Elsdon, y D. Smith, «Fundamental issues in antenna
design for microwave medical imaging applications», Proc. 7th Int Communication
Systems Networks and Digital Signal Processing (CSNDSP) Symp, 2010, pág.
795–800.
[178] A. Chohra, N. Kanaoui, V. Amarger, y K. Madani, «Fuzzy Hybridization of
―Artificial Neural Networks‖ (ANN) Based Signal and Image Processing
Techniques: Application to Intelligent ―Computer Aided Medical Diagnosis‖
(CAMD)», Proc. IEEE Intelligent Data Acquisition and Advanced Computing
Systems: Technology and Applications IDAACS 2005, 2005, pág. 78–83.
[179] S. Kobashi, T. Takae, Y.T. Kitamura, Y. Hata, y T. Yanagida, «Fuzzy medical
image processing for segmenting the lateral ventricles from MR images», Proc. Int
Image Processing Conf, 2001, pág. 1095–1098.
[180] S. Sapna y A. Tamilarasi, «Fuzzy Relational Equation in Preventing Diabetic Heart
Attack», Proc. Int. Conf. Advances in Recent Technologies in Communication and
Computing ARTCom ’09, 2009, pág. 635–637.
[181] H.S. Ranu, «Gait analysis of diabetic foot», Proc. Fourteenth Southern Biomedical
Engineering Conf., 1995, pág. 197–200.
[182] H. Nobuhara, K. Kitamura, K. Hirota, y B. Bede, «Generalized Non-linear Wavelets
and Their Application to Medical Image Processing», Proc. IEEE Int Systems, Man
and Cybernetics Conf, 2005, pág. 1488–1493.
[183] Y.L. Kergosien, «Generic sign systems in medical imaging», IEEE, vol. 11, 1991,
pág. 46–65.
[184] M. Schroder, K. Seidel, y M. Datcu, «Gibbs random field models for image content
characterization», Proc. IEEE Int. Geoscience and Remote Sensing IGARSS ’97.
Remote Sensing - A Scientific Vision for Sustainable Development, 1997, pág.
258–260.
[185] J. Dang, Y. Wang, S. Li, y Z. Zhu, «Heavy-ion radiotherapy treatment planning
system and medical image processing algorithm used in it», Proc. IEEE Int. Conf.
Automation Science and Engineering CASE 2008, 2008, pág. 726–731.
[186] E. Uchino y T. Yamakawa, «High speed fuzzy learning machine with guarantee of
global minimum and its applications to chaotic system identification and medical
image processing», Proc. Conf. Seventh Int Tools with Artificial Intelligence, 1995,
pág. 242–249.
[187] E.F. Ribeiro, C.A.Z. Barcelos, y M.A. Batista, «High-Level Semantic Based Image
Characterization Using Artificial Neural Networks», Proc. Seventh Int. Conf.
Intelligent Systems Design and Applications ISDA 2007, 2007, pág. 357–362.
[188] L. Guo, Y. Li, Y. Gao, y J. Yang, «Hole-Filling by Rank Sparsity Tensor
Decomposition for Medical Imaging», Proc. Int E-Product E-Service and
E-Entertainment (ICEEE) Conf, 2010, pág. 1–4.
[189] C. Wu-fan, «Hotspots on modern medical imaging and image analysis», Proc. 5th
Int. Summer School and Symp. Medical Devices and Biosensors ISSS-MDBS 2008,
2008, pág. 8–9.
[190] K. Koppisetty, M. Serkan, y H. Kirkici, «Image Analysis: A Tool for
Optical-Emission Characterization of Partial-Vacuum Breakdown», IEEE, vol. 37,
2009, pág. 153–158.
[191] P.P. Nair, «Image and video processing using FPGA technology for medical
applications», Proc. Institution of Engineering and Technology - The Latest
Technologies and Tools in Electronic Design, 2008, pág. 1–8.
[192] J. Shen y D. Shen, «Image characterization by fast calculation of low-order
Legendre moments», Proc. IEEE Int Systems, Man, and Cybernetics Conf, 1996,
pág. 1144–1149.
[193] C.A.Z. Barcelos, E.F. Ribeiro, y M.A. Batista, «Image Characterization via
Multilayer Neural Networks», Proc. 20th IEEE Int. Conf. Tools with Artificial
Intelligence ICTAI ’08, 2008, pág. 325–332.
[194] K.R. Namuduri, K. Bouyoucef, y L.M. Kaplan, «Image metrics for clutter
characterization», Proc. Int Image Processing Conf, 2000, pág. 467–470.
[195] F.L. Lizzi y E.J. Feleppa, «Image processing and pre-processing for medical
ultrasound», Proc. 29th Applied Imagery Pattern Recognition Workshop, 2000, pág.
187–192.
[196] N.J. Dusaussoy, Q. Cao, R.N. Yancey, y J.H. Stanley, «Image processing for
CT-assisted reverse engineering and part characterization», Proc. Conf. Int Image
Processing, 1995, pág. 33–36.
[197] A. Doherty y R.R. Payne, «Image processing of blurred medical images», Proc. Int
Acoustic Sensing and Imaging Conf, 1993, pág. 38–43.
[198] M. Freedman, D.S. Artz, y S.K. Mun, «Image processing of medical radiographs for
single image display», Proc. Sixth Int Image Processing and Its Applications Conf,
1997, pág. 12–16.
[199] C. Schmid y R. Mohr, «Image retrieval using local characterization», Proc. Conf.
Int Image Processing, 1996, pág. 781–784.
[200] S. Johnston, T. Unold, I. Repins, R. Sundaramoorthy, K.M. Jones, B. To, N. Call, y
R. Ahrenkiel, «Imaging characterization techniques applied to Cu(In,Ga)Se2 solar
cells», and Films Journal of Vacuum Science & Technology A: Vacuum, Surfaces,
vol. 28, 2010, pág. 665–670.
[201] J.-P. Thiran, B. Piscaglia, P. Piscaglia, B. Macq, J.-F. Goudemant, y R. Demeure,
«IMIS: A multi-platform software package for telediagnosis and 3D medical image
processing», Proc. Conf. Int Image Processing, 1996, pág. 273–276.
[202] L. Costantini, L. Capodiferro, M. Carli, y A. Neri, «Impact of edges characterization
on image clustering», Proc. 2nd European Workshop Visual Information Processing
(EUVIP), 2010, pág. 237–240.
[203] J. Schneir, J.S. Villarrubia, T.H. McWaid, V.W. Tsai, y R. Dixson, «Increasing the
value of atomic force microscopy process metrology using a high-accuracy scanner,
tip characterization, and morphological image analysis», Journal of Vacuum Science
& Technology B: Microelectronics and Nanometer Structures, vol. 14, 1996, pág.
1540–1546.
[204] Y.P. Zheng, Y.K.C. Choi, K. Wong, y A.F.T. Mak, «Indentation assessment of
plantar foot tissue in diabetic patients», Proc. First Joint [Engineering in Medicine
and Biology 21st Annual Conf. and the 1999 Annual Fall Meeting of the Biomedical
Engineering Soc.] BMES/EMBS Conf, 1999.
[205] A. Wong y W. Bishop, «Indirect Knowledge-Based Approach to Non-Rigid
Multi-Modal Registration of Medical Images», Proc. Canadian Conf. Electrical and
Computer Engineering CCECE 2007, 2007, pág. 1175–1178.
[206] J.R. Harding, D.F. Wertheim, R.J. Williams, J.M. Melhuish, D. Banerjee, y K.G.
Harding, «Infrared imaging in diabetic foot ulceration», Proc. 20th Annual Int
Engineering in Medicine and Biology Society Conf. of the IEEE, 1998, pág.
916–918.
[207] J.R. Harding, D. Banerjee, D.F. Wertheim, R.J. Williams, J.M. Melhuish, y K.G.
Harding, «Infrared imaging in the long-term follow-up of osteomyelitis complicating
diabetic foot ulceration», Proc. First Joint [Engineering in Medicine and Biology
21st Annual Conf. and the 1999 Annual Fall Meeting of the Biomedical Engineering
Soc.] BMES/EMBS Conf, 1999.
[208] M. Shikano, K. Murakami, M. Tomita, M. Hasegawa, H. Hasegawa, S. Sugiyama, y
H. Sobajima, «Infrared thermography and diabetic foot», Proc. 23rd Annual Int
Engineering in Medicine and Biology Society Conf. of the IEEE, 2001.
[209] J. Galbrun y K. Kijima, «Innovation in medical imaging technology: Toward a
systemic service perspective», Proc. 7th Int Service Systems and Service
Management (ICSSSM) Conf, 2010, pág. 1–7.
[210] P. Sandoz, J.-M. Friedt, y E. Carry, «In-plane rigid-body vibration mode
characterization with a nanometer resolution by stroboscopic imaging of a
microstructured pattern», Review of Scientific Instruments, vol. 78, 2007, pág.
023706.
[211] R.E. Morley, E.J. Richter, J.W. Klaesner, K.S. Maluf, y M.J. Mueller, «In-shoe
multisensory data acquisition system», IEEE, vol. 48, 2001, pág. 815–820.
[212] M. do Carmo dos Reis, F.A. Soares, A.F. da Rocha, J.L.A. Carvalho, y S.S.F.R.
Rodrigues, «Insole with pressure control and tissue neoformation induction systems
for diabetic foot», Proc. Annual Int Engineering in Medicine and Biology Society
(EMBC) Conf. of the IEEE, 2010, pág. 5748–5751.
[213] M.-F. Vaida y I. Stamate, «Integrated Medical Image Processing Facilities Using a
Dedicated Application», Proc. IEEE Int Automation, Quality and Testing, Robotics
Conf, 2006, pág. 392–396.
[214] Y. Mizuno-Matsumoto, S. Date, Y. Tabuchi, S. Tamura, Y. Sato, R.A. Zorooh, S.
Shimojo, Y. Kadobayashi, T.H. Nogawa, K. Shinosaki, M. Takeda, I.T. Osaka, y H.
Miyahara, «Integration of signal processing and medical image for evaluation of
brain function on Globus», Proc. Internet Workshop IWS 99, 1999, pág. 241–246.
[215] R. Sindhu, «Intelligent compression of medical images with texture information»,
Proc. 2nd Int Computer and Automation Engineering (ICCAE) Conf, 2010, pág.
734–737.
[216] E.F. Ribeiro, C. Barcelos, y M.A. Batista, «Intelligent image characterization»,
Proc. 15th Int. Conf. Systems, Signals and Image Processing IWSSIP 2008, 2008,
pág. 209–212.
[217] T.-Y. Lee y C.-H. Lin, «Interactive animation of 4D medical imaging», Proc. IEEE
EMBS Int Information Technology Applications in Biomedicine Conf, 2000, pág.
232–237.
[218] A. Haggag, A. Abdelwahab, A. Ibrahim, J. Lu, y T. Yahagi, «Interactive Secure
Dissemination of Medical Images Using JPEG 2000», Proc. 6th Int. Special Topic
Conf. Information Technology Applications in Biomedicine ITAB 2007, 2007, pág.
103–106.
[219] X. Gan, W. Huang, J. Yang, y B. Fu, «Internal Wave Packet Characterization from
SAR Images Using Empirical Mode Decomposition (EMD)», Proc. Congress Image
and Signal Processing CISP ’08, 2008, pág. 750–753.
[220] C.-L. Chan, Y.-C. Liu, y S.-H. Luo, «Investigation of diabetic microvascular
complications using data mining techniques», Proc. (IEEE World Congress
Computational Intelligence). IEEE Int. Joint Conf. Neural Networks IJCNN 2008,
2008, pág. 830–834.
[221] I.G. Valais, S.L. David, C.M. Michail, D.N. Nikolopoulos, D.A. Cavouras, I.A.
Sianoudis, C.D. Kourkoutas, I.S. Kandarakis, y G.S. Panayiotakis, «Investigation of
luminescence emission properties of (Lu,Y)2SiO5:Ce (LYSO:Ce) and (Lu, Y)
AlO3:Ce (LuYAP:Ce) single crystal scintillators under x-ray exposure for use in
medical imaging», Proc. IEEE Nuclear Science Symp. Conf. Record, 2006, pág.
1187–1191.
[222] E. Cigna, P. Fioramonti, P. Fino, y N. Scuderi, «Island lateral plantar artery
perforator flap for reconstruction of weight-bearing plantar areas.», Foot Ankle Surg,
vol. 17, Mar. 2011, pág. e13–e16.
[223] S.J. Lee y M.H. Kim, «KoMIPS: a Web-based medical image processing system for
telemedicine applications», Proc. IEEE Region 10 Conf. Computers,
Communications Control and Power Engineering TENCON ’02, 2002, pág.
569–572.
[224] L.E. Ocola, F. Cerrina, y T. May, «Latent image characterization of postexposure
bake process in chemically amplified resists», Journal of Vacuum Science &
Technology B: Microelectronics and Nanometer Structures, vol. 15, 1997, pág.
2545–2549.
[225] W. Zhao, C. Wu, X. Wu, R. Prado, y P. Pattany, «Learning medical imaging in
classroom, virtual classroom and laboratory classroom», Proc. Second Joint
Engineering in Medicine and Biology 24th Annual Conf. and the Annual Fall
Meeting of the Biomedical Engineering Society EMBS/BMES Conf, 2002.
[226] P.F. Stetson, F.G. Sommer, y A. Macovski, «Lesion contrast enhancement in
medical ultrasound imaging», IEEE, vol. 16, 1997, pág. 416–425.
[227] B.S. Kim, W.J. Choi, M.K. Baek, Y.S. Kim, y J.W. Lee, «Limb salvage in severe
diabetic foot infection.», Foot Ankle Int, vol. 32, Ene. 2011, pág. 31–37.
[228] W. Sun, J.A. Romagnoli, J.W. Tringe, S.E. Letant, P. Stroeve, y A. Palazoglu,
«Line Edge Detection and Characterization in SEM Images Using Wavelets», IEEE,
vol. 22, 2009, pág. 180–187.
[229] S. Bourennane y J. Marot, «Line parameters estimation by array processing
methods [image line characterization applications]», Proc. IEEE Int. Conf. Acoustics,
Speech, and Signal Processing (ICASSP ’05), 2005.
[230] I.G. Valais, C.M. Michail, S.L. David, A. Konstantinidis, D.A. Cavouras, I.S.
Kandarakis, y G.S. Panayiotakis, «Luminescence Emission Properties of img
src=―/images/tex/744.gif‖ alt=―(\rm Lu,\rm Y)_2\rm SiO_5‖> :Ce (LYSO:Ce) and
img src=―/images/tex/745.gif‖ alt=―(\rm Lu,\rm Y)\rm AlO_3‖> :Ce (LuYAP:Ce)
Single Crystal Scintillators Under Medical Imaging Conditions», IEEE, vol. 55,
2008, pág. 785–789.
[231] I.G. Valais, I.S. Kandarakis, D.N. Nikolopoulos, C.M. Michail, S.L. David, G.K.
Loudos, D.A. Cavouras, y G.S. Panayiotakis, «Luminescence Properties of
(Lu,Y)2SiO5:Ce and Gd2SiO5:Ce Single Crystal Scintillators Under X-Ray
Excitation for Use in Medical Imaging Systems», IEEE, vol. 54, 2007, pág. 11–18.
[232] I.G. Valais, I.S. Kandarakis, D.N. Nikolopoulos, I.A. Sianoudis, G.K. Loudos, N.D.
Giokaris, K.S. Nikita, D.A. Cavouras, N. Dimitropoulos, C.D. Nomicos, y G.S.
Panayiotakis, «Luminescence properties of LuYSiO5:Ce, Gd2SiO5:Ce, and CsI:Tl
single crystal scintillators under X-ray excitation, for use in medical imaging
systems», Proc. IEEE Nuclear Science Symp. Conf. Record, 2005, pág. 1323–1327.
[233] A.H. Yousry y A.M. Abdalhady, «Management of diabetic neuropathic ankle
arthropathy by arthrodesis using an Ilizarov frame.», Acta Orthop Belg, vol. 76, Dic.
2010, pág. 821–826.
[234] M. Smelyanskiy, D. Holmes, J. Chhugani, A. Larson, D.M. Carmean, D. Hanson, P.
Dubey, K. Augustine, D. Kim, A. Kyker, V.W. Lee, A.D. Nguyen, L. Seiler, y R.
Robb, «Mapping High-Fidelity Volume Rendering for Medical Imaging to CPU,
GPU and Many-Core Architectures», IEEE, vol. 15, 2009, pág. 1563–1570.
[235] J.-P. Morucci, B. Ayeva, F. Fargues, y B. Rigaud, «Matrix determination for in vivo
tissue characterization by parametric electrical impedance imaging», Proc. 18th
Annual Int. Conf. of the IEEE Bridging Disciplines for Biomedicine Engineering in
Medicine and Biology Society, 1996, pág. 792–793.
[236] W.E.L. Grimson, «Medical applications of image understanding», IEEE, vol. 10,
1995, pág. 18–28.
[237] P. Suapang, K. Dejhan, y S. Yimmun, «Medical Image Archiving, Processing,
Analysis and Communication System for Teleradiology», Proc. TENCON 2010 -
2010 IEEE Region 10 Conf, 2010, pág. 339–345.
[238] S.B. Gokturk, C. Tomasi, B. Girod, y C. Beaulieu, «Medical image compression
based on region of interest, with application to colon CT images», Proc. 23rd Annual
Int Engineering in Medicine and Biology Society Conf. of the IEEE, 2001, pág.
2453–2456.
[239] B.K. Stewart y S.G. Langer, «Medical image databases and informatics», Proc. Int.
Conf. Image Processing ICIP 98, 1998, pág. 29–33.
[240] J.M. Sanches, J.C. Nascimento, y J.S. Marques, «Medical Image Noise Reduction
Using the Sylvester–Lyapunov Equation», IEEE, vol. 17, 2008, pág. 1522–1539.
[241] P. Suapang, K. Dejhan, y S. Yimmun, «Medical image processing and analysis for
nuclear medicine diagnosis», Proc. Int Control Automation and Systems (ICCAS)
Conf, 2010, pág. 2448–2451.
[242] C. Giess, A. Mayer, H. Evers, y H.-P. Meinzer, «Medical image processing and
visualization on heterogenous clusters of symmetric multiprocessors using MPI and
POSIX threads», Proc. Parallel Processing Symp the First Merged Int. ... and Symp.
Parallel and Distributed Processing 1998, 1998, pág. 233–237.
[243] Y. Wang, J. Zheng, H. Zhou, y L. Shen, «Medical image processing by denoising
and contour extraction», Proc. Int. Conf. Information and Automation ICIA 2008,
2008, pág. 618–623.
[244] N. Sugimoto, H. Imamura, H. Sekiguchi, y S. Eiho, «Medical Image Processing in
Collaboration with Medical Researchers–Imaging and Image Processing of
Cardiovascular Disease Dynamic Images», Proc. Second Int. Conf. Informatics
Research for Development of Knowledge Society Infrastructure ICKS 2007, 2007,
pág. 77–86.
[245] V. Alves, J. Neves, M. Maia, y L. Nelas, «Medical image processing using extended
logic programming and artificial neural networks», Proc. Video/Image Processing
and Multimedia Communications 4th EURASIP-IEEE Region 8 Int. Symp.
VIPromCom, 2002, pág. 39–42.
[246] S.-R. Kothapalli, P. Wu, C.S. Yelleswarapu, y D.V.G.L.N. Rao, «Medical image
processing using transient Fourier holography in bacteriorhodopsin films», Applied
Physics Letters, vol. 85, 2004, pág. 5836–5838.
[247] P.G.B. Ross, A.J. Lomax, J.P. Byrne, y P.E. Undrill, «Medical image processing
using transputer based hardware», Proc. Third Int Image Processing and its
Applications Conf, 1989, pág. 171–177.
[248] P. Wu y D.V.G.L.N. Rao, «Medical image processing with optical Fourier
techniques», Proc. SBMO/IEEE MTT-S Int. Microwave and Optoelectronics Conf.
IMOC 2003, 2003, pág. 689–694.
[249] K. Maheshwari, C. Goble, P. Missier, y J. Montagnat, «Medical image processing
workflow support on the EGEE grid with taverna», Proc. 22nd IEEE Int. Symp.
Computer-Based Medical Systems CBMS 2009, 2009, pág. 1–7.
[250] M.J. McAuliffe, F.M. Lalonde, D. McGarry, W. Gandler, K. Csaky, y B.L. Trus,
«Medical Image Processing, Analysis and Visualization in clinical research», Proc.
14th IEEE Symp. Computer-Based Medical Systems CBMS 2001, 2001, pág.
381–386.
[251] T.H. Oh, H.S. Lim, y S.Y. Pang, «Medical Image Processing: From Lossless to
Lossy Compression», Proc. TENCON 2005 2005 IEEE Region 10, 2005, pág. 1–6.
[252] J.K. Udupa y G.T. Herman, «Medical image reconstruction, processing,
visualization, and analysis: the MIPG perspective», IEEE, vol. 21, 2002, pág.
281–295.
[253] G. Dougherty, «Medical imaging — An illustrated overview», Proc. 24th Int. Conf.
Image and Vision Computing New Zealand IVCNZ ’09, 2009, pág. 171–178.
[254] D. Wu, A. Dikshit, y W. Zhao, «Medical imaging curriculum development: an
interactive simulation system for different modalities», Proc. 26th Annual Int. Conf.
of the IEEE Engineering in Medicine and Biology Society IEMBS ’04, 2004, pág.
5172–5175.
[255] J.L. Prince y J.M. Links, «Medical Imaging: Signals and Systems (Prince, J.L. and
Links, J.M.; 2006) [Book Review]», IEEE, vol. 25, 2008, pág. 152–153.
[256] C.-L. Su, «Medical record and medical image processing by use the Internet SQL
searching engine», Proc. Int Multimedia Software Engineering Symp, 2000, pág.
427–431.
[257] M. Bertero, P. Bonetto, L. Carracciuolo, L. D’Amore, A. Formiconi, M.R.
Guarracino, G. Laccetti, A. Murli, y G. Oliva, «MedIGrid: a medical imaging
application for computational Grids», Proc. Int. Parallel and Distributed Processing
Symp, 2003.
[258] G. Cibuzar, L. von Dissen, M. Fisher, W.R. Kennedy, M. Selim, T. Brink, G.
Wendelschafer-Crabb, D. Simone, S. Foster, M. Nolano, y V. Provitera,
«Microfabricated Structures for Evaluation of Tactile Sensitivity», Proc. 18th
Biennial University/Government/Industry Micro/Nano Symp. (UGIM), 2010, pág.
1–4.
[259] Y. Wahab, A. Zayegh, R. Veljanovski, y R.K. Begg, «Micro-sensor for foot
pressure measurement», Proc. TENCON 2008 - 2008 IEEE Region 10 Conf, 2008,
pág. 1–5.
[260] G. Chen, H. Yi, y Z. Ni, «MIPP: a Web-based medical image processing system for
stent design and manufacturing», Proc. Int. Conf. Services Systems and Services
Management ICSSSM ’05, 2005, pág. 1484–1488.
[261] L.H. Staib y J.S. Duncan, «Model-based deformable surface finding for medical
images», IEEE, vol. 15, 1996, pág. 720–731.
[262] G.M. Lanza, P.M. Winter, S.D. Caruthers, M.S. Hughes, C.S. Hall, J.N. Marsh,
M.J. Scott, H. Zhang, A. Schmieder, K. Crowder, A. Morawski, y S.A. Wickline,
«Molecular imaging and targeted drug delivery: merging medical paradigms», Proc.
IEEE Symp. Ultrasonics, 2003, pág. 526–531.
[263] G. Almeida, F. Melicio, y A. Pinheiro, «Multimodal semantic characterization of
images using MPEG-7 descriptors», Proc. 9th Symp. Neural Network Applications in
Electrical Engineering NEUREL 2008, 2008, pág. 13–16.
[264] A. Dhawan, «Multimodality multiparameter medical imaging and image analysis»,
Proc. Int. Conf. Information Technology and Applications in Biomedicine ITAB
2008, 2008, pág. 10–11.
[265] A. Manduca, «Multi-spectral medical image visualization with self-organizing
maps», Proc. ICIP-94. Conf. IEEE Int Image Processing, 1994, pág. 633–637.
[266] S.T.C. Wong y H.K. Huang, «Networked multimedia for medical imaging», IEEE,
vol. 4, 1997, pág. 24–35.
[267] V. Murray, M. Pattichis, y P. Soliz, «New AM-FM analysis methods for retinal
image characterization», Proc. 42nd Asilomar Conf. Signals, Systems and
Computers, 2008, pág. 664–668.
[268] M.K. Patil, V. Vasanth Bhat, M. Bhatia, R. Parivalavan, V.B. Narayanamurthy, y
V.S. Ganesan, «New methods and parameters for dynamic foot pressure analysis in
diabetic neuropathy», Proc. 19th Annual Int Engineering in Medicine and Biology
Society Conf. of the IEEE, 1997, pág. 1826–1828.
[269] J.J. Collins, A.A. Priplata, D.C. Gravelle, J. Niemi, J. Harry, y L.A. Lipsitz,
«Noise-enhanced human sensorimotor function», IEEE, vol. 22, 2003, pág. 76–83.
[270] M.R. Ogiela y R. Tadeusiewicz, «Nonlinear processing and semantic content
analysis in medical imaging», Proc. IEEE Int Intelligent Signal Processing Symp,
2003, pág. 243–247.
[271] M.R. Ogiela y R. Tadeusiewicz, «Nonlinear processing and semantic content
analysis in medical imaging», Proc. IEEE Int Intelligent Signal Processing Symp,
2003, pág. 243–247.
[272] M.R. Ogiela y R. Tadeusiewicz, «Nonlinear processing and semantic content
analysis in medical imaging-a cognitive approach», IEEE, vol. 54, 2005, pág.
2149–2155.
[273] S. Srinivas, C. Chandrana, V. Zagrodsky, S. Roy, y A. Fleischman, «Nonlinear
tissue characterization with intravascular ultrasound harmonic imaging», Proc. IEEE
Int. Ultrasonics Symp. (IUS), 2009, pág. 1938–1941.
[274] Y. Takeuchi, R. Nozaki, Y. Hirata, H. Takada, y L.S. Smith, «Novel 1-3
piezo-composites using synchrotron radiation lithography and its application for high
frequency medical imaging arrays», Proc. IEEE Ultrasonics Symp., 1997, pág.
919–922.
[275] V. Petrovic y C. Xydeas, «Objective image fusion performance characterisation»,
Proc. Tenth IEEE Int. Conf. Computer Vision ICCV 2005, 2005, pág. 1866–1871.
[276] A.L. Betker, Z.M.K. Moussavi, y T. Szturm, «On modeling center of foot pressure
distortion through a medium», IEEE, vol. 52, 2005, pág. 345–352.
[277] M.-J. Seow y V.K. Asari, «On using an associative memory for improving digital
color images: color characterization, enhancement, and color balancing», Proc. IEEE
Int. Joint Conf. Neural Networks IJCNN ’05, 2005, pág. 1830–1835.
[278] D.K. Wukich, A. Joseph, M. Ryan, C. Ramirez, y J.J. Irrgang, «Outcomes of ankle
fractures in patients with uncomplicated versus complicated diabetes.», Foot Ankle
Int, vol. 32, Feb. 2011, pág. 120–130.
[279] A. Meghoufel, J.A. De Guise, N. Crevier-Denoix, y G. Cloutier, «P3E-6 3D Tissue
Characterization of the Equine Superficial Digital Flexor Tendons From In Vivo
Ultrasound Images», Proc. IEEE Ultrasonics Symp, 2006, pág. 2080–2083.
[280] Z. Liang, R.J. Jaszczak, y R.E. Coleman, «Parameter estimation of finite mixtures
using the EM algorithm and information criteria with application to medical image
processing», IEEE, vol. 39, 1992, pág. 1126–1133.
[281] Z. Li, H. Zhai, y M. Tan, «Particle shape characterization of brown corundum
powders by SEM and image analysis», Proc. Int. Technology and Innovation Conf.
ITIC 2006, 2006, pág. 1310–1313.
[282] S.B. Balakirsky y R. Chellappa, «Performance characterization of image
stabilization algorithms», Proc. Conf. Int Image Processing, 1996, pág. 413–416.
[283] C.R. Hill, J.C. Bamber, y D.O. Cosgrove, «Performance criteria for tissue
characterization and image parameterization», Proc. Annual Int Engineering in
Medicine and Biology Society Conf. of the IEEE, 1988.
[284] N. Selvarasu, S. Vivek, y N.M. Nandhitha, «Performance Evaluation of Image
Processing Algorithms for Automatic Detection and Quantification of Abnormality
in Medical Thermograms», Proc. Int Conf. Computational Intelligence and
Multimedia Applications Conf, 2007, pág. 388–393.
[285] M.L. Zequera y S. Solomonidis, «Performance of insole in reducing plantar
pressure on diabetic Patients in the early stages of the disease», Proc. Annual Int
Engineering in Medicine and Biology Society (EMBC) Conf. of the IEEE, 2010, pág.
2982–2985.
[286] C.S. Yelleswarapu, S.-R. Kothapalli, P. Wu, y D.V.G.L.N. Rao, «Photo-controlled
absorption in Bacteriorhodopsin films for medical image processing», Proc. and
2006 Quantum Electronics and Laser Science Conf. Lasers and Electro-Optics
CLEO/QELS 2006. Conf, 2006, pág. 1–2.
[287] F. Totir, G. Vasile, L. Bombrun, y M. Gay, «PolSAR images characterization
through Blind Sources Separation techniques», Proc. IEEE Int. Geoscience and
Remote Sensing Symp. (IGARSS), 2010, pág. 4039–4042.
[288] G.L. Fan y W.K. Cham, «Post-processing for low bit-rate wavelet-based image
coding using multiscale edge characterization», Proc. Data Compression Conf. DCC
’98, 1998.
[289] G. Dasika, K. Fan, y S. Mahlke, «Power-efficient medical image processing using
PUMA», Proc. IEEE 7th Symp. Application Specific Processors SASP ’09, 2009,
pág. 29–34.
[290] M. Naganawa, Y. Kimura, Y. Manabe, y K. Chihara, «Practical Consideration about
Cost Functions of Spatial Independent Component Analysis in Medical Image
Processing», Proc. 27th Annual Int. Conf. of the Engineering in Medicine and
Biology Society IEEE-EMBS 2005, 2005, pág. 1120–1122.
[291] H. Zhu, W. Sun, M. Wu, G. Guan, y Y. Guan, «Pre-Processing of X-Ray Medical
Image Based on Improved Temporal Recursive Self-Adaptive Filter», Proc. 9th Int.
Conf. for Young Computer Scientists ICYCS 2008, 2008, pág. 758–763.
[292] H. Zhu, J. Wertsch, G.F. Harris, M.B. Price, y H.M. Alba, «Pressure distribution
beneath sensate and insensate feet», Proc. Annual Int Engineering in Medicine and
Biology Society Images of the Twenty-First Century. Conf. of the IEEE Engineering
in, 1989, pág. 822–823.
[293] Z. Facaros, C.L. Ramanujam, y T. Zgonis, «Primary subtalar joint arthrodesis with
internal and external fixation for the repair of a diabetic comminuted calcaneal
fracture.», Clin Podiatr Med Surg, vol. 28, Ene. 2011, pág. 203–209.
[294] Y. Wu, «Principles and Recent Advances in Medical Imaging and Image Analysis
(Dhawan, A.P. et al., Eds.; 2008) [Book review]», IEEE, vol. 28, 2009, pág. 68–69.
[295] S.R. Shah y K.M. Patil, «Processing of foot pressure images and display of an
advanced clinical parameter PR in diabetic neuropathy», Proc. 9th Int. Conf.
Rehabilitation Robotics ICORR 2005, 2005, pág. 414–417.
[296] S.R. Shah y K.M. Patil, «Processing of foot pressure images and display of an
advanced clinical parameter PR in Diabetic Neuropathy», Proc. 2nd Int Neural
Engineering IEEE EMBS Conf, 2005, pág. 56–59.
[297] S. Silva, B.S. Santos, J. Madeira, y A. Silva, «Processing, Visualization and
Analysis of Medical Images of the Heart: An Example of Fast Prototyping Using
MeVisLab», Proc. Second Int. Conf. in Visualisation VIZ ’09, 2009, pág. 165–170.
[298] D.K.W. Chiu, P.C.K. Hung, V.S.Y. Cheng, y E. Kafeza, «Protecting the Exchange
of Medical Images in Healthcare Process Integration with Web Services», Proc. 40th
Annual Hawaii Int. Conf. System Sciences HICSS 2007, 2007.
[299] H. Bennis y R. Benslimane, «Quantification of pore size distribution in the
Z-direction of paper by using image analysis: Characterization of paper structure by
image analysis», Proc. 5th Int I/V Communications and Mobile Network (ISVC)
Symp, 2010, pág. 1–4.
[300] T.-F. Lee, C.-Y. Lee, P.-J. Chao, C. Lee, C.-Y. Wang, y C.-H. Fang, «Quantitative
Coronary Analysis Medical Image Processing Improved by Combining Wavelet
Edge Detection and Segmentation», Proc. Fourth Int Innovative Computing,
Information and Control (ICICIC) Conf, 2009, pág. 1196–1199.
[301] M.H. Loew, «Quantitative methods in medical imaging», Proc. Eighth IEEE Symp.
Computer-Based Medical Systems, 1995.
[302] G. Wu, «Real-time feedback of body center of gravity for postural training of
elderly patients with peripheral neuropathy», IEEE, vol. 5, 1997, pág. 399–402.
[303] M.F. Santarelli, V. Positano, y L. Landini, «Real-time multimodal medical image
processing: a dynamic volume-rendering application», IEEE, vol. 1, 1997, pág.
171–178.
[304] M. Javornik, K. Slavicek, y O. Dostal, «Redundancy in Processing of Medical
Image Data», Proc. Fourth Int. Conf. Computer Sciences and Convergence
Information Technology ICCIT ’09, 2009, pág. 519–523.
[305] Y. Chen, B. Davis, y A. Valdevit, «Regional differences in strength at the plantar
skin-fat interface», Proc. IEEE 28th Annual Northeast Bioengineering Conf, 2002,
pág. 69–70.
[306] Y.B. Sheng, W.Y. Ke, y L.J. Ping, «Research and Application of Image
Segmentation Algorithm Based on the Shortest Path in Medical Tongue Processing»,
Proc. WRI World Congress Software Engineering WCSE ’09, 2009, pág. 239–243.
[307] Y. Liang y S. JianRong, «Research on Prediction Model and Image
Characterization of Accident Environmental Events in the Atmosphere», Proc. 4th
Int Bioinformatics and Biomedical Engineering (iCBBE) Conf, 2010, pág. 1–4.
[308] L. Guohuan, H. Yanfei, Y. Zheng, y Z. Xiuli, «Research on processing and analysis
method for medical CT image», Proc. Int Computer and Communication
Technologies in Agriculture Engineering (CCTAE) Conf. On, 2010, pág. 97–100.
[309] Y.-S. Kim y W.-Y. Kim, «Reversible decorrelation method for progressive
transmission of 3-D medical image», IEEE, vol. 17, 1998, pág. 383–394.
[310] A.E. Hassanien, A. Abraham, J.F. Peters, G. Schaefer, y C. Henry, «Rough Sets and
Near Sets in Medical Imaging: A Review», IEEE, vol. 13, 2009, pág. 955–968.
[311] A. Almuntashri, S. Agaian, y T.S. Durrani, «Screening and manipulating brain
medical images on handheld devices», Proc. IEEE Int. Conf. Systems, Man and
Cybernetics SMC 2009, 2009, pág. 3440–3443.
[312] S.R. Bryan, W.S. Woodward, R.W. Linton, y D.P. Griffis, «Secondary ion mass
spectrometry/digital imaging for the three-dimensional chemical characterization of
solid state devices», and Films Journal of Vacuum Science & Technology A:
Vacuum, Surfaces, vol. 3, 1985, pág. 2102–2107.
[313] N. Shareef, D.L. Wang, y R. Yagel, «Segmentation of medical images using
LEGION», IEEE, vol. 18, 1999, pág. 74–91.
[314] Y. Wahab, A. Zayegh, R. Veljanovski, y R.K. Begg, «Sensitivity optimization of a
foot plantar pressure micro-sensor», Proc. Int. Conf. Microelectronics ICM 2008,
2008, pág. 131–134.
[315] J.L. Coatrieux, «Shape and function from motion in medical imaging: part 2»,
IEEE, vol. 25, 2006, pág. 6–21.
[316] X. Wu y J. Chi, «Shape-Preserving Fitting Used for Medical Image
Pre-processing», Proc. Int Computer Science and Software Engineering Conf, 2008,
pág. 826–829.
[317] C. Hoppener, D. Molenda, H. Fuchs, y A. Naber, «Simultaneous topographical and
optical characterization of near-field optical aperture probes by way of imaging
fluorescent nanospheres», Applied Physics Letters, vol. 80, 2002, pág. 1331–1333.
[318] J.A. Pinuela y D. Andina, «Singularity and Multifractal Characterization of Signals
with Wavelets. Application to Clay Soil Images», Proc. World Automation Congress
WAC ’06, 2006, pág. 1–6.
[319] V. Todica y M.F. Vaida, «SOA-based medical image processing platform», Proc.
IEEE Int. Conf. Automation, Quality and Testing, Robotics AQTR 2008, 2008, pág.
398–403.
[320] K.-S. Park, S. Hong, y P. Park, «Spectral Content Characterization for Efficient
Image Detection Algorithm Design», Proc. Sixth IEEE Int. Conf. Computer and
Information Technology CIT ’06, 2006.
[321] L. Han y N.H. Clinthorne, «Statistical performance evaluation and system modeling
for a Compton medical imaging system for higher energy photon imaging», Proc.
IEEE Nuclear Science Symp. Conf. Record NSS ’08, 2008, pág. 629–633.
[322] R. Peng, H. Chen, P.K. Varshney, y J.H. Michels, «Stochastic resonance: An
approach for enhanced medical image processing», Proc. IEEE/NIH Life Science
Systems and Applications Workshop LISA 2007, 2007, pág. 253–256.
[323] B. Notarberardino, P.G. Young, G.R. Tabor, L. Hao, I.G. Turner, y A. Harkara,
«Structural and fluid transport characterization of bio-scaffolds based on 3D imaging
data», Proc. Int. Conf. Biomedical and Pharmaceutical Engineering ICBPE ’09,
2009, pág. 1–3.
[324] M.L. Zequera, S.E. Solomonidis, F. Vega, y L.M. Rondon, «Study of the plantar
pressure distribution on the sole of the foot of normal and diabetic subjects in the
early stages by using a hydrocell pressure sensor», Proc. 25th Annual Int
Engineering in Medicine and Biology Society Conf. of the IEEE, 2003, pág.
1874–1877.
[325] J. Wang y Y. Kang, «Study on Medical Image Processing Algorithm Based on
Contourlet Transform and Correlation Theory», Proc. WRI World Congress
Computer Science and Information Engineering, 2009, pág. 233–238.
[326] N. Unsworth, D. Johnson, B. Kuchta, y C. McIsaac, «Successful Implementation of
a Professional Development Program for: Wound Care in the Community Care
Setting.», Healthc Q, vol. 14, 2011, pág. 88–94.
[327] S.C. Orphanoudakis, «Supercomputing in medical imaging», IEEE, vol. 7, 1988,
pág. 16–20.
[328] D. Kouame y M. Ploquin, «Super-resolution in medical imaging : An illustrative
approach through ultrasound», Proc. IEEE Int. Symp. Biomedical Imaging: From
Nano to Macro ISBI ’09, 2009, pág. 249–252.
[329] S.E. Dowd, J.D. Hanson, E. Rees, R.D. Wolcott, A.M. Zischau, Y. Sun, J. White,
D.M. Smith, J. Kennedy, y C.E. Jones, «Survey of fungi and yeast in polymicrobial
infections in chronic wounds.», J Wound Care, vol. 20, Ene. 2011, pág. 40–47.
[330] T.M. Lehmann, C. Gonner, y K. Spitzer, «Survey: interpolation methods in medical
image processing», IEEE, vol. 18, 1999, pág. 1049–1075.
[331] I. Grodnensky, K. Suwa, N. Farrar, E. Johnson, y J. Pan, «Technique for optical
characterization of exposure tool imaging performance down to 100 nm», Journal of
Vacuum Science & Technology B: Microelectronics and Nanometer Structures, vol.
17, 1999, pág. 3285–3290.
[332] E.-E. Kim y S. Al Marri, «Testing and characterization of the DubaiSat-1 imaging
system», Proc. 4th Int. Conf. Recent Advances in Space Technologies RAST ’09,
2009, pág. 349–351.
[333] K. Deguchi y I. Morishita, «Texture Characterization and Texture-Based Image
Partitioning Using Two-Dimensional Linear Estimation Techniques», IEEE, 1978,
pág. 739–745.
[334] M. Zequera, S. Stephan, y J. Paul, «The ―PAROTEC‖ Foot Pressure Measurement
System and its Calibration Procedures (2005)», Proc. 28th Annual Int. Conf. of the
IEEE Engineering in Medicine and Biology Society EMBS ’06, 2006, pág.
4135–4139.
[335] G. Yang, X. Yu, y X. Zhuang, «The Current Status and Development of Pattern
Recognition Diagnostic Methods Based on Medical Imaging», Proc. IEEE Int. Conf.
Networking, Sensing and Control ICNSC 2008, 2008, pág. 567–572.
[336] T.S. Ferguson, M.K. Tulloch-Reid, y R.J. Wilks, «The epidemiology of diabetes
mellitus in Jamaica and the Caribbean: a historical review.», West Indian Med J, vol.
59, Jun. 2010, pág. 259–264.
[337] C. Roux, «The futures of medical imaging», Proc. 5th Int. Summer School and
Symp. Medical Devices and Biosensors ISSS-MDBS 2008, 2008, pág. 13–14.
[338] A. Galbiati, M.G. Metaxas, B.S. Avset, A. Bergamaschi, D. Cavouras, I. Evangelou,
A. Fant, M.J. French, H. Georgiou, G. Hall, G. Iles, G. Li, R. Longo, N. Manthos,
J.M. Ostby, S. Pani, A. Peterzol, F. Psomadellis, G.J. Royle, H. Schulerud, R.D.
Speller, P.F. van der Stelt, S. Theodoridis, F. Triantis, y R. Turchctta, «The I-Imas
project: end-users driven specifications for the design of a novel digital medical
imaging system», Proc. IEEE Nuclear Science Symp. Conf. Record, 2004, pág.
2742–2746.
[339] B. Buchberger, M. Follmann, D. Freyer, H. Huppertz, A. Ehm, y J. Wasem, «The
importance of growth factors for the treatment of chronic wounds in the case of
diabetic foot ulcers.», GMS Health Technol Assess, vol. 6, 2010, pág. Doc12.
[340] S.M. Pizer, «The Medical Image Display and Analysis Group at the University of
North Carolina: Reminiscences and philosophy», IEEE, vol. 22, 2003, pág. 2–10.
[341] M. Zequera, S. Stephan, y J. Paul, «The Position of the Centres of the Sensors of the
Parotec Pressure Measurement Insoles System Related to the Anatomy Centres of
the Metatarsal Heads by Means of Radiological Records», Proc. 29th Annual Int.
Conf. of the IEEE Engineering in Medicine and Biology Society EMBS 2007, 2007,
pág. 4453–4456.
[342] H. Qing-hang, Z. Zhen-xi, L. Zheng, y X. Zheng-hong, «The Processing of the
Degraded Medical Digital Image’s Image Enhancement», Proc. 27th Annual Int.
Conf. of the Engineering in Medicine and Biology Society IEEE-EMBS 2005, 2005,
pág. 3383–3385.
[343] A.A.W. Smith, M.K. Teal, y P. Voles, «The statistical characterization of the sea for
the segmentation of maritime images», Proc. 4th EURASIP Conf Video/Image
Processing and Multimedia Communications focused, 2003, pág. 489–494.
[344] K. Ammer, P. Melnizky, O. Rathkolb, y E.F. Ring, «Thermal imaging of skin
changes on the feet of type II diabetics», Proc. 23rd Annual Int Engineering in
Medicine and Biology Society Conf. of the IEEE, 2001, pág. 2870–2872.
[345] K. Gopalan y N. Gopalsami, «Thermal-wave image processing for characterization
of subsurface flaws in materials», Proc. 36th Midwest Symp. Circuits and Systems,
1993, pág. 1433–1435.
[346] N. Weng, Y.-H. Yang, y R. Pierson, «Three-dimensional surface reconstruction
using optical flow for medical imaging», IEEE, vol. 16, 1997, pág. 630–641.
[347] V.R. Amin, D.E. Wilson, R. Roberts, y G. Rouse, «Tissue characterization for beef
grading using texture analysis of ultrasonic images», Proc. Ultrasonics Symp. IEEE
1993, 1993, pág. 969–972.
[348] E. dos Santos Filho, M. Yoshizawa, A. Tanaka, Y. Saijo, T. Yambe, y S. Nitta,
«Toward a neuro-fuzzy system for automatic segmentation and characterization of
intravascular ultrasound images», Proc. SICE 2003 Annual Conf, 2003, pág.
1586–1589.
[349] R. Jarrar y M. Belkhatir, «Towards automated conceptual shape-based
characterization an application to symbolic image retrieval», Proc. 17th IEEE Int
Image Processing (ICIP) Conf, 2010, pág. 2673–2676.
[350] I. Shcherback, R. Segal, A. Belenky, y O. Yadid-Pecht, «Two-dimensional CMOS
image sensor characterization», Proc. IEEE Int. Symp. Circuits and Systems ISCAS
2006, 2006.
[351] R. Segal, I. Shcherback, y O. Yadid-Pecht, «Two-Dimensional MTF and Crosstalk
Characterization for CMOS Image Sensors», Proc. IEEE 24th Convention of
Electrical and Electronics Engineers in Israel, 2006, pág. 349–353.
[352] M. De Santo, C. Liguori, y A. Pietrosanto, «Uncertainty in image based
measurements: a step towards model characterization», Proc. 17th IEEE
Instrumentation and Measurement Technology Conf. IMTC 2000, 2000, pág.
365–369.
[353] W. Yan, W. Yang, Y. Liu, y H. Sun, «Unsupervised classification of PolInSAR
image based on Shannon Entropy Characterization», Proc. IEEE 10th Int Signal
Processing (ICSP) Conf, 2010, pág. 2192–2195.
[354] M.E. Parham y F.S. Casciani, «Use Of Neural Network Analysis To Calculate
Healing Rates And Week Of Closure In The Treatment Of Diabetic Foot Ulcers
With Dermagraft», Proc. 17th Southern Biomedical Engineering Conf, 1998.
[355] G. Faulkner y H. Talhami, «Using ―biological‖ genetic algorithms to solve the
travelling salesman problem with applications in medical image processing», Proc.
IEEE Int Evolutionary Computation Conf, 1995, pág. 707–710.
[356] D.A. Crisan, C. Coculescu, J.L. Stanica, y A.N. Altar Samuel, «Using fractal
techniques to reduce haziness in medical imaging», Proc. 2nd IEEE Int. Conf.
Computer Science and Information Technology ICCSIT 2009, 2009, pág. 92–95.
[357] D. Brown, G.F. Harris, y J.J. Wertsch, «Using SIMM2 to model muscle length
changes due to negative heel rocker sole modification», Proc. First Joint
[Engineering in Medicine and Biology 21st Annual Conf. and the 1999 Annual Fall
Meeting of the Biomedical Engineering Soc.] BMES/EMBS Conf, 1999.
[358] A. Gacsadi y P. Szolgay, «Variational computing based segmentation methods for
medical imaging by using CNN», Proc. 12th Int Cellular Nanoscale Networks and
Their Applications (CNNA) Workshop, 2010, pág. 1–6.
[359] J. Dunsmore, S. Hubert, y D. Williams, «Vector mixer characterization for image
mixers», Proc. IEEE MTT-S Int. Microwave Symp. Digest, 2004, pág. 1743–1746.
[360] V. Klymenko, S.M. Pizer, y R.E. Johnston, «Visual psychophysics and medical
imaging: nonparametric adaptive method for rapid threshold estimation in sensitivity
experiments», IEEE, vol. 9, 1990, pág. 353–365.
[361] T. Smith, S. Thomas, T. Torgersen, M. Holden, y L.A. Koman, «Waveform analysis
of laser Doppler signals from normal and diabetic feet», Proc. IEEE Seventh Symp.
Computer-Based Medical Systems, 1994, pág. 77–81.
[362] L. Li, F. Mao, W. Qian, y L.P. Clarke, «Wavelet transform for directional feature
extraction in medical imaging», Proc. Conf. Int Image Processing, 1997, pág.
500–503.
[363] C. Vannier y L. Hubert-Moy, «Wooded hedgerows characterization in rural
landscape using very high spatial resolution satellite images», Proc. IEEE Int.
Geoscience and Remote Sensing Symp. (IGARSS), 2010, pág. 347–350.
[364] X. Li y W. Zhao, «Work in progress - Internet accessible, interactive teaching
software and tracking system for Medical Imaging education», Proc. 39th IEEE
Frontiers in Education Conf. FIE ’09, 2009, pág. 1–2.
[365] X. Li, F. Manns, y W. Zhao, «Work in progress — Medical imaging education by a
multi-level module-based online teaching and assessment system», Proc. IEEE
Frontiers in Education Conf. (FIE), 2010.
[366] R. Grunfeld, A. Kunselman, J. Bustillo, y P.J. Juliano, «Wound complications in
thyroxine-supplemented patients following foot and ankle surgery.», Foot Ankle Int,
vol. 32, Ene. 2011, pág. 38–46.
[367] G.C. Sakellaris y D.I. Fotiadis, «XMedIA communication system: an XML driven
medical image processing and archiving environment», Proc. 23rd Annual Int
Engineering in Medicine and Biology Society Conf. of the IEEE, 2001, pág.
3630–3633.
[368] L. Li, W. Qian, y L.P. Clarke, «X-ray medical image processing using directional
wavelet transform», Proc. Conf. IEEE Int Acoustics, Speech, and Signal Processing
ICASSP-96, 1996, pág. 2251–2254.