What We Do
fusing the most advanced MULTI SPECTRAL LASER technology with AI analysis.
Miracural AI personnel have been at the forefront of optical AI technology development since 2015, in collaboration with Louisiana State University and have published on multi-spectral, binary and image analysis.
Our team of seasoned professionals is dedicated to pioneering advancements in health analysis and optimization by combining innovative visual optics and laser-based confocal technologies.
UNCOVER new dimensions relevant to development and disease
Direct visualization of cellular phenotypes and metabolic states is key to understand biological processes in health and disease.
Miracural AI provides the spectroscopic capabilities that enable a detailed study of your sample under conditions as close to real life as possible.
REAL TIME CELLULAR DIAGNOSIS WITH THE worlds most advanced VISUAL OPTICS
Breakthroughs in real time observation are now enabled by the most advanced confocal electro-optics technologies that fuse laser optics & AI with a knowledge of Biologics and Chemistry.
CORE CAPABILITIES
MULTI MODAL OPTICAL IMAGING
CREATE NEW CLASSIFICATIONS THROUGH SENSOR FUSION
CREATE NEW CLASSIFICATIONS THROUGH SENSOR FUSION
COMBINE ELECTRO-OPTIC FLUORESCENCE IMAGING WITH CHEMICAL IMAGING
Miracural AI provides several imaging methods tightly integrated into the Electro-Optic system.
This technology fully enables multi-modal optical imaging with biochemical, biophysical, and molecular contrast.
CREATE NEW CLASSIFICATIONS THROUGH SENSOR FUSION
CREATE NEW CLASSIFICATIONS THROUGH SENSOR FUSION
CREATE NEW CLASSIFICATIONS THROUGH SENSOR FUSION
ENHANCE RESEARCH WITH INHERENTLY QUANTIFIABLE DATA
Miracural AI enables new imaging methods, including obtaining inherently quantifiable data from ratiometric and spectroscopic imaging approaches.
Use Case: Through advanced imaging observe spectra of dodecane (a fully saturated hydrocarbon, cyan) and linoleic acid (a poly-unsaturated fatty acid, magenta) droplets immersed in water. The ratio of intensities at 1660 cm⁻¹ to 1440 cm⁻¹ allows for quantification of lipid unsaturation.
NAVIGATE LARGE AND COMPLEX SAMPLES WITH EASE
CREATE NEW CLASSIFICATIONS THROUGH SENSOR FUSION
NAVIGATE LARGE AND COMPLEX SAMPLES WITH EASE
PERFORM FULL TILE SCANS OF LARGE SAMPLES
Miracural AI provides the investigator with the most relevant information needed to choose regions of interest for subsequent, more detailed investigations.