Image Processing for Pathological Visualization in Multitemporal Convoluted TIRI

The convoluted nature of thermal infrared radiation and poor understanding of the physical mechanismsof human emittance, make objective image acquisition and processing protocols prerequisite for meaningful diagnostic specificity. A longitudinal dataset of clinical thermal infrared images was objectively processed to facilitate visualization of osseous stress pathology in the lower limbs.. This paper details processing of 500+ thermal infrared images acquired during a recent three month clinical study into osseous stress pathology in the lower limbs of Australian Army basic trainees. The use ofthermal chroma-keying in segmentation and multitemporal image calibration is demonstrated. The ‘OpenSURF’ implementation of the scale and rotation-invariant interest point detector and escriptor are shown to be performant in registration of multitemporal clinical thermal infrared image data. Thermal ‘signs’ observed in longitudinal images appear to be revealing detectable changes in osseous stress pathophysiology

Towards application of thermal infrared imaging in medical diagnosis: protocols and investigations

This thesis ‘Thermal Infrared Imaging: Advancement for Clinical Applications’ documents a series of clinical and laboratory investigations into: development and application of protocols for objective acquisition and processing of clinical TIRI image data, characterisation of human tissue emissivity within clinically-relevant regimes, and use of thermal infrared imaging to determine the depth of subcutaneous heat sources. This work was supported by the Australian Defence Science & Technology Organisation, Western Australian Department of Health, and Flir Systems