Kodak Imaging Sensors Return to Mars; MARCI's "Eyes" "See" 2.5 Times Better Than Rover's.ROCHESTER, N.Y.--(BUSINESS WIRE)--December 14, 1998--Eastman Kodak Company digital imaging technology, which played a key role on the Mars Pathfinder Mission Rover, is going back to Mars. This time, Kodak solid-state imaging sensors are on board the Mars Climate Orbiter The Mars Climate Orbiter (formerly the Mars Surveyor '98 Orbiter) was one of two spacecraft in the Mars Surveyor '98 program, the other being the Mars Polar Lander (formerly the Mars Surveyor '98 Lander). (MCO MCO Managed care organization, see there ), one of the two spacecraft of the NASA NASA: see National Aeronautics and Space Administration. NASA in full National Aeronautics and Space Administration Independent U.S. Jet Propulsion Laboratory “JPL” redirects here. For other uses, see JPL (disambiguation). Jet Propulsion Laboratory (JPL) is a NASA research center located in the cities of Pasadena and La Cañada Flintridge, near Los Angeles, California, USA. Mars Surveyor `98 Mission. Launched on December 11 from Cape Canaveral, the Mars Climate Orbiter will focus on gaining a better understanding of Mars' atmosphere and climate history. The MCO science payload includes the Mars Color Imager (MARCI MARCI Mars Color Imager MARCI Multi-host Automation Remote Control and Instrumentation (US government simulation community) ), a camera system that uses two Kodak image sensors. The MARCI was developed by Malin Space Science Systems Malin Space Science Systems (or MSSS) is a San Diego, California company that designs, develops, and operates instruments to fly on unmanned spacecraft. MSSS is headed by chief scientist and CEO Michael C. Malin. , Inc. (MSSS), of San Diego, Calif.. It consists of two separate cameras: a wide-angle (140 deg) field of view system and a medium-angle (8 deg) system. These instruments will acquire multi-spectral images at two resolutions: the wide-angle will cover the entire planet on a periodic basis at one km/pixel, while the medium-angle will image selected areas at 40 m/pixel. The wide-angle system can acquire images in five colors plus two ultraviolet spectral bands, while the higher-resolution medium-angle system can take pictures in eight colors. Each MARCI system uses one Kodak KAI-1001, which is a 1000 by 1000 pixel format sensor. "The sensors on this Mars mission provide 2.5 times the pixel resolution of the Kodak sensors used on the Sojourner Rover," said Willy Shih, vice president, Eastman Kodak Company, and president, Digital & Applied Imaging. "The MARCI image quality will be dramatically improved over what we saw from Sojourner." The second Mars Survey '98 Mission spacecraft, the Mars Polar Lander The Mars Polar Lander was part of the NASA Mars Surveyor '98 program, which consisted of two spacecraft launched separately, the Mars Climate Orbiter (formerly the Mars Surveyor '98 Orbiter) and the Mars Polar Lander (formerly the Mars Surveyor '98 Lander). (MPL), will carry another MSSS-developed camera that uses the Kodak KAI-1001 sensor, the Mars Descent Imager (MARDI MARDI Mars Descent Imager MARDI Malaysian Agricultural Research and Development Institute ). The Mars Polar Lander will be launched in January 1999 and is expected to land on Mars in December 1999. MARDI is mounted on the underside of the MPL spacecraft and will acquire a series of black-and-white images as the craft descends through the atmosphere. This camera will begin to capture images at approximately 15,000 feet above the planet's surface and will continue all the way to touchdown. After the successful launch last week, the Mars Climate Orbiter is scheduled to reach Mars in September 1999. Following aerobraking aer·o·brak·ing n. The use of atmospheric drag rather than onboard thrusters to reduce the velocity of a satellite or spacecraft. to put it into a circular orbit and support of Mars Polar Lander operations, MCO will observe Mars for one Martian year (about two Earth years). During this period, MARCI will observe Martian atmospheric processes at a global scale and study details of the interaction of the atmosphere with the surface at a variety of scales in both space and time. Scientists will use the data gathered from this mission to learn about the Earth by comparing it to Mars and to build a comprehensive data set to aid in planning and carrying out future missions. "Kodak's image sensors were the only ones to feature the combination of a mega pixel device and an electronic shutter design," said Dr. Michael Caplinger of MSSS. "The electronic shutter was particularly critical for the design of these cameras because a mechanical shutter would have added too much weight and complexity." The innovative electronics architecture of MARCI and MARDI uses a digital signal processor A digital signal processor (DSP) is a specialized microprocessor designed specifically for digital signal processing, generally in real-time computing. Characteristics of typical Digital Signal Processors
Kodak Digital Science image sensors similar to those used on the mission can be found in a wide range of Kodak and other manufacturers' "earthly" products for scientific, industrial, commercial, medical and government markets. Applications include security, machine vision, traffic control and digital still photography. KAI-1001 image sensors are also used in the ES-1.0 camera manufactured by Kodak's Motion Analysis Systems Division. Editor's Note: For additional information about Kodak, visit our web site on the Internet at www.kodak.com. |
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