Last Name | Name | Awards | Contact | |
---|---|---|---|---|
Bartz | Robert Bartz | 6 | ||
Zaneeveld | J Ronald Zaneeveld | 1 | ||
Ronald V Zaneveld | J Ronald V Zaneveld | 1 | ||
Spinrad | Richard W. Spinrad | 1 |
Phase 2 SBIR
The purpose of this research is to develop an expendable sensor that allows the rapid determination of suspended particle concentrations in natural marine environments. At present there exists no method for near-synoptic measurement of patricle distributions, yet the three dimensional particle distribution and its temporal development are of ...
Phase 1 SBIR
Phase 2 SBIR
PRESENTLY, SPECTRAL CALIBRATION OF INSTRUMENTS USED TO STUDYTHE OPTICAL PROPERTIES OF WATER IS VERY DIFFICULT TO ACCOMPLISH. FREQUENTLY, IN FACT, RELATIVE MEASUREMENTS MUSTBE MADE RATHER THAN ABSOLUTE ONES BECAUSE THERE IS NO ADEQUATE PURE WATER CALIBRATION STANDARD. ACCURATE CALIBRATION OF INSTRUMENTS USED FOR THE SPECTRAL MEASUREMENTOF BOTH IN...
Phase 2 SBIR
THIS PROJECT WILL DESIGN, CONSTRUCT, AND EVALUATE PROTOTYPE SPECTRAL ATTENUATION AND BACKSCATTERING METERS. THESE INSTRUMENTS, ALONG WITH A SPECTRAL ABSORPTION METER CURRENTLY BEING DEVELOPED, ARE NEEDED FOR RESEARCHERS TO UNDERSTAND THE RADIATIVE TRANSFER PROPERTIES LINKING THE REMOTELY SENSED OCEAN COLOR SPECTRA TO THE STATE OF THE OCEANIC BIO...
Phase 2 SBIR
DEVELOP AND TEST A SHORT-WAVELENGTH, LIGHT-EMITTING-DIODE BEAM TRANSMISOMETER FOR UNDERWATER DEPLOYMENT USING THE OPTICAL FEEDBACK LOOP TECHNOLOGY DEVELOPED UNDER PHASE I OF THIS SBIR EFFORT.
Phase 1 SBIR
AN INSTRUMENT WILL BE DEVELOPED FOR THE IN SITU MEASUREMENT OF ABSORPTION OF 670 NM WAVELENGTH LIGHT BY MARINE PARTICLES. THE INSTRUMENT WILL MAKE USE OF A LARGE AREA DETECTOR AND A REFLECTING TUBE ALIGNED COAXIALLY WITH THE MAIN LIGHT BEAM. INITIAL RESEARCH WILL FOCUS ON THE OPTIMIZATION OF TECHNIQUE AND MATERIAL FOR THE DESIGN OF THEREFLECTING...