Ad Hoc Radiometric Calibration of a Thermal-Infrared Camera

Many applications can benefit from the accurate surface temperature estimates that can be made using a passive thermal-infrared camera. However, the process of radiometric calibration which enables this can be both expensive and time consuming. An ad hoc approach for performing radiometric calibration is proposed which does not require specialized equipment and can be completed in a fraction of the time of the conventional method. The proposed approach utilizes the mechanical properties of the camera to estimate scene temperatures automatically, and uses these target temperatures to model the effect of sensor temperature on the digital output. A comparison with a conventional approach using a blackbody radiation source shows that the accuracy of the method is sufficient for many tasks requiring temperature estimation. Furthermore, a novel visualization method is proposed for displaying the radiometrically calibrated images to human operators. The representation employs an intuitive coloring scheme and allows the viewer to perceive a large variety of temperatures accurately.

[1]  Peyman Moghadam,et al.  HeatWave : a handheld 3D thermography system for energy auditing , 2013 .

[2]  David Borland,et al.  Rainbow Color Map (Still) Considered Harmful , 2007, IEEE Computer Graphics and Applications.

[3]  Teresa A. Vidal-Calleja,et al.  Selective Combination of Visual and Thermal Imaging for Resilient Localization in Adverse Conditions: Day and Night, Smoke and Fire , 2013, J. Field Robotics.

[4]  Ajay Kumar,et al.  Correcting Infrared Focal Plane Array Sensor Non Uniformities Based Upon Adaptive Filter , 2006, 2006 International Conference on Image Processing.

[5]  Joseph A. Shaw,et al.  Correcting for focal-plane-array temperature dependence in microbolometer infrared cameras lacking thermal stabilization , 2013 .

[6]  Sridha Sridharan,et al.  A Mask-Based Approach for the Geometric Calibration of Thermal-Infrared Cameras , 2012, IEEE Transactions on Instrumentation and Measurement.

[7]  Peter Bajcsy,et al.  Integration of Data Across Disparate Sensing Systems Over Both Time and Space to Design Smart Environments , 2010 .

[8]  Sergio N. Torres,et al.  Real-Time Kalman Filtering for Nonuniformity Correction on Infrared Image Sequences: Performance and Analysis , 2005, CIARP.

[9]  Alexander Toet,et al.  Natural colour mapping for multiband nightvision imagery , 2003, Inf. Fusion.

[10]  Samy El-Tawab,et al.  Real-time weather notification system using intelligent vehicles and smart sensors , 2009, 2009 IEEE 6th International Conference on Mobile Adhoc and Sensor Systems.

[11]  Xiubao Sui,et al.  Response model of resistance-type microbolometer , 2010 .

[12]  J. Meseguer,et al.  Thermal radiation heat transfer , 2012 .

[13]  Erik Reinhard,et al.  Face-based luminance matching for perceptual colormap generation , 2002, IEEE Visualization, 2002. VIS 2002..

[14]  Michael Bosse,et al.  3D thermal mapping of building interiors using an RGB-D and thermal camera , 2013, 2013 IEEE International Conference on Robotics and Automation.

[15]  Patrick J. Bartlein,et al.  The end of the rainbow? Color schemes for improved data graphics , 2004 .

[16]  Klaus Mueller,et al.  Harmonic Colormaps for Volume Visualization , 2008, VG/PBG@SIGGRAPH.

[17]  Alexander Savelyev,et al.  Surface Temperature Mapping of the University of Northern Iowa Campus Using High Resolution Thermal Infrared Aerial Imageries , 2008, Sensors.

[18]  Sergio SOBARZO,et al.  Real-Time Kalman Filtering for Nonuniformity Correction in Infrared Focal-Plane Arrays ∗ , 2004 .

[19]  J. Kalma,et al.  Calibration of small infra-red surface temperature transducers , 1988 .

[20]  Joseph A. Shaw,et al.  Errata: Correcting for focal-plane-array temperature dependence in microbolometer infrared cameras lacking thermal stabilization , 2013 .

[21]  Fabio Bozzoli,et al.  Characterization of an uncooled infrared thermographic system suitable for the solution of the 2-D inverse heat conduction problem , 2008 .

[22]  G. Pagliarini,et al.  Data processing technique applied to the calibration of a high performance FPA infrared camera , 2002 .