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    Архив RU.SPACE.NEWS за 10 апреля 1998


    Дата: <b style="color:black;background-color:#66ffff">10</b> апреля 1998 (1998-04-<b style="color:black;background-color:#66ffff">10</b>) От: Alexander Bondugin Тема: Galileo Update - April 9, 1998 Привет всем! Вот, свалилось из Internet... MEDIA RELATIONS OFFICE JET PROPULSION LABORATORY CALIFORNIA INSTITUTE OF TECHNOLOGY NATIONAL AERONAUTICS AND SPACE ADMINISTRATION PASADENA, CALIF. 91109. TELEPHONE (818) 354-5011 http://www.jpl.nasa.gov GALILEO EUROPA MISSION STATUS April 9, 1998 The Galileo spacecraft successfully completed its most recent flyby of Jupiter's moon Europa on March 29, and indications are there was no change to the gyroscope performance. Because one of the two gyros had been acting up, the closest approach to Europa was carried out in cruise mode, with the gyros turned off; the spacecraft used only stars to orient itself and point its instruments. However, an attitude-control system performance test showed that the gyros did not degrade further during this latest pass through Jupiter's intense radiation environment. Galileo project engineers have pinpointed a single computer chip as the cause of the anomalous behavior. This particular chip has received more radiation exposure than other similar chips in the gyro electronics. This week, Galileo transmitted to Earth pictures and other science information gathered during the latest Europa flyby. This includes one of three observations by the photopolarimeter radiometer designed to refine temperature variation maps of Europa's surface. This will help scientists understand surface ages and composition and the process that may have formed the surface. In addition, there is information from instruments that study magnetic fields and charged particles on the interaction between Europa and Jupiter's magnetic and electric field environment. The camera and the near infrared mapping spectrometer have returned information on a region of dark lines and the Mannann'an crater on Europa. Data gathered by the spectrometer of the south pole of Jupiter's volcanic moon, Io, provides the spacecraft's best view of the area until late 1999. On Friday, April <b style="color:black;background-color:#66ffff">10</b>, the spacecraft will perform regular propulsion system maintenance and perform a turn to keep its radio antenna pointed toward Earth. Galileo's next Europa flyby will take place on May 31, 1998, at an altitude of 2,521 kilometers (1,566 miles). The spacecraft successfully completed its primary mission in December 1997 and is now in its two-year extension, the Galileo Europa Mission. Current plans include four more Europa flybys after the May encounter, four Callisto flybys, and one or two of Io, depending on spacecraft health. ##### Hа сегодня все, пока! =SANA=
    Дата: <b style="color:black;background-color:#66ffff">10</b> апреля 1998 (1998-04-<b style="color:black;background-color:#66ffff">10</b>) От: Alexander Bondugin Тема: Mars Global Surveyor Update - April 9, 1998 Привет всем! Вот, свалилось из Internet... From the Mars Global Surveyor home page: http://mars.jpl.nasa.gov/mgs/target/update4-9.html SUMMARY OF CLUSTER 1 TARGETED IMAGING 09-APR-98 3:30 PM PDT Mars Global Surveyor has completed the first of three sets (clusters) of specially targeted imaging opportunities during its current hiatus in aerobraking. While it was estimated that probability of successfully accomplishing this imaging would be on the order of 30-50% for each of the images, owing to navigation, spacecraft attitude control and map location uncertainties, it appears that we have done somewhat better. On April 3, 1998, at 0958 UTC, MGS pointed the Mars Orbiter Camera toward the Viking Lander 1 site in Chryse Planitia. The area was covered with a thin cloud layer and patchy thick clouds, reducing but not eliminating surface visibility. The narrow angle image had relatively low contrast but the contrast was sufficient for adequate feature identification. This analysis showed that the targeted spot for the Viking Lander 1 sites was approximately 40 pixels or 150 m off the western edge of the image, although it was well centered in the north to south direction. We came very close, and the pointing performance was well within the expected variations of the spacecraft's attitude control system, and we'll count this as a miss. Because the Lander was not in the picture, we won't release the image at this time. Viking Lander 2 is located in Utopia Planitia, further north and on the other side from Mars from Viking Lander 1. When MGS imaged this area on April 3, at 2137 UTC, on the orbit following the Viking Lander 1 observation, it found the area in heavy overcast, with clouds and haze severely reducing the surface visibility by over 70-80%. These clouds and possible surface frost led to a scene substantially brighter than anticipated, and thus much of the image data was saturated bright. Aggressive application of image processing techniques enhanced faint brightness variations, rendering a small number of surface features visible. These features were used to attempt to determine the success of the targeting. It is believed that the Viking-era landing location may be with the extreme south-west portion of the image and the western-most of three new estimated positions, more recently determined, may be in the lower south-eastern portion of the image. The location of Viking Lander 2 is the least well known of the sites being imaged. So, we'll count this attempt as a hit, however, because the image is mostly clouds, we won't release it at this time. Mars Pathfinder, the Sagan Memorial Station, and the Sojourner rover are located in Ares Vallis. On April 4th, at 0916 UTC, the spacecraft was successful in targeting the point that it was directed to, however, a controversy has arisen as to the true coordinates of the real landing site. It appears that, after some reevaluation of the targeting information used with the Mars Pathfinder project, we have used the wrong coordinate references for our target point. Better information will be used in the next opportunity. Because it appears that Mars Pathfinder is not in the image, we won't release the image at this time. The feature known as the "Face on Mars" in the Cydonia region was imaged quite successfully on April 5th and its image was released in raw form and in an enhanced form on April 6th. The picture was acquired 375 seconds after the spacecraft's 220th closest approach to Mars. At that time, the "Face", located at approximately 40.8 degrees N, 9.6 degrees W, was 275 miles (444 km) from the spacecraft. The "morning" sun (about <b style="color:black;background-color:#66ffff">10</b> AM local solar time) was 25 degrees above the horizon. The picture has a resolution of 14.1 feet (4.3 meters) per pixel, making it ten times higher resolution than the best previous image of the feature, which was taken by the Viking Orbiter 1 in 1976. The full image covers an area 2.7 miles (4.4 km) wide and 25.7 miles (41.5 km) long. Since winter clouds cover much of the northern hemisphere of Mars above 40 degrees N latitude at this time of the Martian year, the raw image of the "Face" was of very low contrast, that is, variations in brightness of the picture elements cover a very small range compared to the ultimate capability of the camera. Thus, the "raw" image appears very dark and flat. This very washed out appearance of the northern hemisphere of Mars can be readily seen in the wide angle image taken at the same time as the narrow angle picture that contains the "Face" (see http://mars/mgs/msss/camera/images/4_6_face_release/index.html). The enhanced version of the raw data has made the feature visible. The enhanced version also flipped the image left to right to make it appear in the same orientation as the familiar Viking image. The targeting was very good for this attempt and is clearly a hit. The "Face" was nearly exactly in the center of the image. A portion of another feature in the area, the "D&M Pyramid", is the bottom left-hand corner of the image. The Mars Surveyor Operations Project assesses the results of the first cluster of targeted imaging to have been quite successful. The results have provided information useful in fine tuning the processes for the second cluster of images that will be taken starting on April 12th. Hа сегодня все, пока! =SANA=

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