Citing the AustinMan Electromagnetic Voxels Model
Please reference the AustinMan Electromagnetic Voxels in any research report, journal article, or publication that requires citation of original work. The recognition is important to determine the impact of the model.
We suggest you cite the conference paper:
J. W. Massey and A. E. Yilmaz, "AustinMan and AustinWoman:
High-fidelity, anatomical voxel models developed from the VHP color
images," in Proc. 38th Annual International Conference of the
IEEE Engineering in Medicine and Biology Society (IEEE EMBC),
Orlando, FL, Aug. 2016.
Our suggested acknowledgement is:
The authors acknowledge the Computational Electromagnetics Group at The University of Texas at Austin for
developing and making the AustinMan Electromagnetic Voxels model
available at http://bit.ly/AustinMan.
Additionally, you may also refer to one of these papers:
- J. W. Massey, “Creating AustinMan: An electromagnetic voxel model of the Visible Human.” B.S. thesis, Dept. ECE, The University of Texas at Austin, Austin, TX, 2011.
- T. Malas, F. Wei, J. W. Massey, C. S. Geyik, and A. E. Yılmaz, “Application of AIM to high-resolution bioelectromagnetics simulations,” in Proc. Appl. Comp. Electromagnetics Symp., Mar. 2011, pp. 558-563.
- T. Malas, F. Wei, J. W. Massey, C. S. Geyik, and A. E. Yılmaz, "High-fidelity bioelectromagnetics analysis with volume integral equations: AIM acceleration, parallelization, and preconditioning,” in Proc. Workshop on Advanced Techniques in Computational Electromagnetics, Glasgow, UK, June 2011.
- F. Wei and A. E. Yılmaz, “A 2-D decomposition based parallelization of AIM for 3-D BIOEM problems,” in Proc. IEEE Antennas Propagat. Soc. Int. Symp., July 2011, pp. 3158-3161.
- K. Yang, F. Wei, and A. E. Yılmaz, “Multigrid versus pre-corrected FFT/AIM for biolectromagnetics: When is O(N) better than O(NlogN)?” Computational Electromagnetics Int. Workshop, Izmir, Turkey, August 2011.
- J. Massey, C. Geyik, N. Techachainiran, C. Hsu, R. Nguyen, T. Latson, M. Ball, and A. Yilmaz, “AustinMan and AustinWoman: High fidelity, reproducible, and open-source electromagnetic voxel models,” in Proc. Bioelectromagnetics Soc. 34th Annu. Meeting, Brisbane, Australia, June 2012.
- C. S. Geyik, F. Wei, J. W. Massey, and A. E. Yılmaz, “FDTD vs. AIM for bioelectromagnetic analysis,” in Proc. IEEE Antennas Propagat. Soc. Int. Symp., July 2012.
- F. Wei, J. W. Massey, C. S. Geyik, and A. E. Yılmaz, “Error measures for comparing bioelectromagnetic simulators,” in Proc. IEEE Antennas Propagat. Soc. Int. Symp., July 2012.
- F. Wei and A. E. Yılmaz, “Surface-preconditioned AIM-accelerated surface-volume integral equation solution for bioelectromagnetics,” in Proc. Int. Conf. Electromagnetics Advanced Applicat. (ICEAA), Sep. 2012.
- J. W. Massey, F. Wei, and A. E. Yılmaz, “Mixed basis functions for fast analysis of antennas near voxel-based human models,” in Proc. URSI Radio Sci. Meeting, July 2013.
- F. Wei and A. E. Yılmaz, “A more scalable and efficient parallelization of the Adaptive Integral Method—Part II: BIOEM application,” IEEE Trans. Antennas and Propag., vol. 62, no. 2, pp. 727-738, Feb. 2014.
- J. W. Massey, F. Wei, and A. E. Yılmaz, “A hybrid surface-volume integral-equation method for analyzing scattering from voxel-based anatomical human models with smooth skin,” in Proc. URSI Radio Sci. Meeting, July 2014.
