Award Data

This SBIR Phase II proposal introduces a fast multi-mode hyperspectral-multispectral (MM-HS-MS) sensor with programmable spectral resolution. The sensor brings the following long-waiting benefits to the remote sensor community: (i) switchable between HS and MS operations, (ii) variable spectral resolution from 10nm to 560 nm; (iii) fast frame rate (54-1,750Hz), (iv) short full spectral range data ...

Shelter enclosures for military working dogs in the event of a CB attack is a technology gap identified by the Joint Requirements Office. Important parameters to consider in the design of protective enclosures include low weight and size to minimize transport requirements; rapid setup; and accommodation of canine physiological and psychological comfort needs while providing protection against CB ...

In this Phase 2 SBIR program submitted to National Aeronautics and Space Administration (NASA) in response to Topic S1.05 (Detector Technologies for UV, X-Ray, Gamma-Ray and Cosmic-Ray Instruments), Aymont Technology, Inc. (Aymont) and GE Global Research will enable high-sensitivity ultraviolet imaging. We will build upon our Phase 1 result showing working SiC UV avalanche photodiodes with high q ...

The objective of the proposed work is to develop a hyperspectral sensor system in the 8 to 14 micron wavelength region (long wave infrared or LWIR) capable of detecting chemical agents of DoD and civil interest via spectral measurements at 4 wavenumber resolution. The technology is an evolution of a LWIR hyperspectral technology patented by the University of Hawaii and licensed to Spectrum Photon ...

Autonomous surface sampling systems are necessary, near term, to construct a historical view of planetary significant events; as well as allow for the identification of materials useful for ISRU activities. Paramount to this is exploration missions capable of in-situ analysis of core samples that deliver the stratigraphy of the target. These sample handling technologies must be developed to meet a ...

Lunar dust has been identified as a significant and present challenge in future exploration missions. Significant development is called for in the area of devices and structures that tolerate or mitigate the presence of Lunar dust. Honeybee Robotics Spacecraft Mechanisms Corporation (SMC) seeks to develop methods for mitigating dust accumulation on reusable connection mechanisms, such as will be n ...

Lunar dust has been identified as a significant and present challenge in future exploration missions. The interlocking, angular nature of Lunar dust and its broad grain size distribution make it particularly detrimental to mechanisms with which it may come into contact. Honeybee Robotics Spacecraft Mechanisms Corporation (HRSMC) seeks to develop a dust-tolerant, autonomous connector to transmit da ...

Future lunar site operations will benefit from mobile robots, both autonomous and tele-operated, that complement or replace human extravehicular activity. Three-dimensional sensing technology is at the heart of such functionality, enabling reliable navigation in complex, dynamic environments, and serving as a valuable tool for inspection and site survey. Honeybee Robotics is therefore developing ...

Robotic planetary exploration missions will need to perform in-situ analysis of rock and/or regolith samples or returning samples back to earth. Obtaining and delivering a sample can be a complex engineering problem, especially if it's done autonomously thousands of miles away. To accommodate future missions, these subsurface access and sample handling technologies must be developed to meet a broa ...

Honeybee Robotics proposes to develop a vacuum compatible percussive dynamic cone penetrometer (PDCP), for establishing soil bin characteristics, with the ultimate intent of taking it to a flight system level. Penetrometers are used to determine the Cone index (CI), which is a composite index influenced by both soil compressibility and shear strength. A dynamic cone penetrometer is used to estima ...