Using principles of energy transfer more commonly applied to designing solar cells, scientists at the U.S. Department of Energy’s Brookhaven National Laboratory have developed a new highly sensitive way to detect specific sequences of DNA, the genetic material unique to every living thing.
University of California, Riverside researchers have created a method that can classify different species of insects with up to 99 percent accuracy, a development that could help farmers protect their crops from insect damage and limit the spread of insect-borne diseases, such as malaria and Dengue fever.
Senso Optics, a leader in the design, development and production of innovative thermal imaging technologies, commercial avionics, and advanced electro-optical solutions for military, paramilitary and security markets both in Israel and around the world, revolutionizes the uncooled thermal sensors industry with the introduction of the COC (“Camera On Chip”).
ChemImage Sensor Systems (CISS) announces that Matthew P. Nelson, Ph.D, Chief Scientist and CISS Business Director will be presenting innovative results of the company's work on a portable standoff Hyperspectral Imaging (HSI) for detecting and identifying explosives, chemicals and narcotics at the SPIE Defense, Security and Sensing (SPIE DSS) meeting in Baltimore, MD.
Abiomed, Inc., a leading provider of break-through heart support technologies, today announced its acquisition of an exclusive license from collaboration partner Opsens, a leading developer of fiber optic sensors.
According to the International Atomic Energy Agency (IAEA) the greatest danger to nuclear security comes from terrorists acquiring sufficient quantities of plutonium or highly enriched uranium (HEU) to construct a crude nuclear explosive device. The IAEA also notes that most cases of illicit nuclear trafficking have involved gram-level quantities, which can be challenging to detect with most inspection methods.
ON Semiconductor, driving energy efficient innovations, has announced the introduction of the first devices in its new PYTHON CMOS image sensor family. With resolutions of 300 K, 500 K and 1.3 Mega pixels (MPix) respectively, the PYTHON 300, 500 and 1300 are designed to address the needs of general purpose industrial image sensing applications such as machine vision, inspection and motion monitoring, as well as security and surveillance applications including intelligent transportation systems (ITS).
Research and Markets has announced the addition of the "Status of the CMOS Image Sensor Industry 2014" report to their offering.
Reportbuyer.com just published a new market research report: Global Fiber Optic Sensor Market 2014-2018
ON Semiconductor, driving energy efficient innovations, today signed a definitive agreement to acquire Truesense Imaging, Inc., a provider of high-performance image sensor devices addressing a wide range of industrial end-markets including machine vision, surveillance, traffic monitoring, medical and scientific imaging, and photography.
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