2009 |
11 | EE | Wolfgang Bangerth,
Amit Joshi:
Adaptive finite element methods for nonlinear inverse problems.
SAC 2009: 1002-1006 |
2008 |
10 | EE | Marc Bartels,
Amit Joshi,
John C. Rasmussen,
Wolfgang Bangerth,
Eva M. Sevick-Muraca:
Post image acquisition mitigation of excitation light leakage in patterned illumination based NIR fluorescence tomography.
ISBI 2008: 1239-1242 |
9 | EE | Amit Joshi,
John C. Rasmussen,
Sunkuk Kwon,
Todd A. Wareing,
John McGhee,
Eva M. Sevick-Muraca:
Multi-modality CT-PET-NIR fluorescence tomography.
ISBI 2008: 1601-1604 |
2007 |
8 | EE | Wolfgang Bangerth,
Amit Joshi,
Eva M. Sevick-Muraca:
Inverse Biomedical Imaging Using Separately Adapted Meshes for Parameters and Forward Model Variables.
ISBI 2007: 1368-1371 |
7 | EE | Jae Hoon Lee,
Amit Joshi,
Eva M. Sevick-Muraca:
Adaptive Technique for Fluorescence Enhanced Optical Tomography Using Tetrahedral Dual-Mesh.
ISBI 2007: 1376-1379 |
6 | EE | Amit Joshi,
Wolfgang Bangerth,
Ruchi Sharma,
John C. Rasmussen,
Wei Wang,
Eva M. Sevick-Muraca:
Molecular Tomographic Imaging of Lymph Nodes with Nir Fluorescence.
ISBI 2007: 564-567 |
5 | EE | John C. Rasmussen,
Tianshu Pan,
Amit Joshi,
Todd A. Wareing,
John McGhee,
Eva M. Sevick-Muraca:
Comparison of Radiative Transport, Monte Carlo, and Diffusion Forward Models for Small Animal Optical Tomography.
ISBI 2007: 824-827 |
2006 |
4 | EE | Amit Joshi,
Wolfgang Bangerth,
Eva M. Sevick-Muraca:
Non-contact fluorescence optical tomography with scanning area illumination.
ISBI 2006: 582-585 |
3 | EE | Amit K. Sahu,
Amit Joshi,
Eva M. Sevick-Muraca:
Effect of random structured backgrounds on Hotelling SNR fluorescence imaging systems.
ISBI 2006: 586-589 |
2005 |
2 | EE | Anita Komlodi,
Penny Rheingans,
Utkarsha Ayachit,
John R. Goodall,
Amit Joshi:
A User-centered Look at Glyph-based Security Visualization.
VizSEC 2005: 3 |
2004 |
1 | | Amit Joshi,
Eva M. Sevick-Muraca,
Alan B. Thompson,
Wolfgang Bangerth:
Adaptive Finite Element Methods for Fluorescence Enhanced Frequency Domain Optical Tomography: Forward Imaging Problem.
ISBI 2004: 1103-1106 |