PSI’s Intensity-Dependent Infrared Blocking Filter for Source Exclusion
Physical Sciences Inc. (PSI) has been awarded a research program from the U.S. Air Force Research Laboratory to develop an intensity-dependent infrared filter that will use the radiant intensity of a source (i.e., the sun) to locally control the infrared transmission of the filter.
LabHand Payload for InstantEye® sUAS Platform
Physical Sciences Inc. (PSI) has been awarded a contract from the National Institutes of Health to develop a LabHand payload for its InstantEye® sUAS platform for continuous indoor transport of laboratory consumables.
Energy Scavenging Technology for Electric Power Generation
Physical Sciences Inc (PSI) of Andover, Massachusetts, in collaboration with Purdue University, has been awarded a research contract from The National Aeronautics and Space Administration (NASA) to develop a novel approach to scavenging heat from high intensity thermal environments encountered during space missions and converting this thermal power to electrical power at high efficiency.
United States Marine Corps Procures the New InstantEye Mk-3 GEN5-D1 SUAS System
InstantEye Robotics, a division of Physical Sciences Inc., is pleased to announce it has secured a contract with the Defense Logistics Agency (DLA) in support of PMA-263, the Navy and Marine Corps Small Tactical Unmanned Aircraft Systems (SUAS) Program Office, to field 32 InstantEye Mk-3 GEN5-D1 SUAS systems (64 aircraft).
Candidate Lori Trahan Meets with Local Small Business Leaders
Candidate Lori Trahan, Democratic candidate for the 3rd Massachusetts District in US Congress, met with more than a dozen leaders of high technology small businesses Thursday, October 18, to better understand their role in our local economy.
Multi-modal AO-LSO Phase Gradient Imaging of the Inner Retina
Under a research program from the National Institutes of Health, Physical Sciences Inc (PSI) is continuing the pursuit of new clinical applications and advanced multimodal capabilities for its novel retinal imaging technology based on an adaptive optics scanning laser ophthalmoscope (AO-SLO).
PSI’s Compact Adaptive Optics Retinal Imager (CAORI) reduces the clinical footprint compared to research AO-SLO and simplifies AO optical design while preserving the confocal advantage. PSI is incorporating a powerful new modality for phase gradient imaging (PGI) in the inner retina.
Optical System for Monitoring Net Ocular Blood Flow
Under a research program from National Aeronautics and Space Administration (NASA), Physical Sciences Inc. (PSI) is developing a novel ophthalmic imaging platform for characterizing and monitoring potential visual impairments caused by long-duration space flights.
NARUC and DPU visit PSI Headquarters in Andover, MA
On September 18, 2018, Physical Sciences Inc. (PSI, Andover MA) and Heath Consultants Inc. (Houston TX) hosted representatives of the National Association of Regulatory Utility Commissioners (NARUC) and the Massachusetts Department of Public Utilities (DPU) at PSI’s Andover, MA headquarters.
Multimodal Otoendoscope for Non-invasive Diagnosis of Middle Ear Pathology
Under a research program from the National Institutes of Health, Physical Sciences Inc. (PSI), is developing a clinical otoendoscopic imaging system that combines PsOCT/RS with conventional video otoendoscopy,
Measurement of Retinal Nerves and Blood Vessels as Markers for Type I Diabetes
Under a research program from the National Institutes of Health, Physical Sciences Inc. (PSI) is developing a new tool for researchers and clinicians to investigate and monitor changes of retinal microstructures due to type 1diabetes disease progression or response to treatment.