of Kyiv National Taras Shevchenko University Abstract. ODESSA. Systematical study of the meteor events are being carried out since 1953. In 2003 complete modernization of the observing technique was performed, and TV gmeteor patrolh on the base of WATEC LCL902 cameras was created. @ wide variety of mounts and objectives are used: from Schmidt telescope F = 540 mm, F/D = 2.25 (field of view FOV = (0.68x0.51) deg, star limiting magnitude SLM = 13.5 mag, star astrometric accuracy 1-2 arcsec) up to Fisheye lenses F = 8 mm, F/D = 3.5 (FOV = (36x49) deg, SLM = 7 mag). The database of observations that was collected between 2003 and 2012 consists of 6176 registered meteor events. Observational programs on basis and non-basis observations in Odessa (Kryzhanovka station) and Zmeiny island are presented. Software suite of 12 programs was created for processing of meteor TV observations. It enables one to carry out the whole cycle of data processing: from image preprocessing up to orbital elements determination. Major meteor particles research directions: statistic, areas of streams, precise stream radiant, orbit elements, phenomena physics, flare appearance, wakes, afterglow, chemistry and density. KYIV. The group of meteor investigations has been functioning more than twenty years. The observations are carried out simultaneously from two points placed at the distance of 54 km. Super-isocon low light camera tubes are used with photo lens: F = 50mm, F/D = 1.5 (FOV = (23.5 x 19.0) deg, SLM = 9.5 mag), or F = 85, F/D = 1.5 (FOV = (13x11) deg, SLM = 11.5 mag). Astrometry, photometry, calculation of meteor trajectory in Earth atmosphere and computation of heliocentric orbit are realized in developed gFalling Starh software. KHARKOV. Meteor radio-observations have begun in 1957. In 1972, the radiolocation system MARS designed for automatic meteor registration was recognized as being the most sensitive system in the world. With the help of this system 250 000 faint meteors (up to 12 mag) were registered between 1972 and 1978 (frequency 31.1 MHz, particle masses 10~(-3) ~ 10~(-6) g). Simultaneously, millions of reflections were registered for even fainter meteors (up to 14 mag). Information about 250 000 meteors and 5160 meteor streams is included in database. This is an unique material that can be used for hypotheses testing, as well as for creation new theories about meteor phenomena. Models of the meteor matter distribution in the Earthfs atmosphere, near-Earth space and in the Solar system, influence on surface of spacecrafts were developed. NIKOLAEV. The optical and radio observations of meteors have begun in 2011. Two WATEC LCL902 cameras are used with photo lens F = 85 mm, F/D = 1.8 (FOV = (3.2x4.3), SLM = 12 mag, star astrometric accuracy 1-6 arcsec). Original software was developed for automatic on-line detection of meteor in video stream. During 2011 year 105 meteor events were registered (with angular length (0.5-4.5) deg and brightness (1-5) mag). Error of determination of the meteor trajectory arc ~ (10-12) arcsec. Error of determination of the large circle pole of the meteor trajectory is ~(3-13) arcmin. In the radio band observations of meteors are performed by registration of signal reflected from the meteor wake. As a signal source the over-the-horizon FM station in Kielce (Poland) is used. Narrow-beam antenna, computer with TV/FM tuner and audio recording software are used to perform radio observations. Original software was developed for automatic detection of meteor in audio stream.
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机译:Kyiv National Taras Shevchenko大学摘要。敖德萨。自1953年以来正在开展流星事件的系统研究。2003年,在Watec LCL902相机基地上进行了彻底的观察技术现代化,并创建了Watec LCL902相机基地的电视。使用@宽各种安装和目标:来自施密特望远镜F = 540 mm,f / d = 2.25(视野fov =(0.68x0.51)deg,星形限制幅度slm = 13.5 mag,星形星形精度1- 2个arcsec)到Fisheye镜片F = 8 mm,F / D = 3.5(FOV =(36x49)DEG,SLM = 7 mag)。 2003年至2012年间收集的观察数据库包括6176个注册的流星事件。展示了敖德萨(Kryzhanovka Station)和Zmeiny Island的基础和非基础观测的观测计划。创建了12个程序的软件套件以处理流星电视观察。它使一个能够执行数据处理的整个循环:从图像预处理到轨道元素的确定。主要流星粒子研究方向:统计,溪流区域,精确的流辐射,轨道元素,现象物理,火炬外观,唤醒,余辉,化学和密度。 Kyiv。流星调查组一直在运作二十多年。观察结果同时从放置在54公里处的距离下的两点进行。超等比线低光摄像管使用具有光透镜:F =为50mm,F / d = 1.5(FOV =(23.5 X 19.0)度,SLM = 9.5 MAG)或F = 85,F / d = 1.5(FOV =(13x11)DEG,SLM = 11.5 mag)。 ASTROMARY,测光,在地球大气中的流动轨迹计算和天鹅段轨道的计算,在开发的GFLING STARH软件中实现。哈卡夫。 Meteor无线电观测已经开始于1957年开始。1972年,专为自动流星注册设计的Radiolition System Mars被认为是世界上最敏感的系统。在该系统的帮助下,在1972年和1978年(频率31.1MHz,粒子质量为10〜(-3)〜10〜(-6)G)之间,在该系统的帮助下注册了250 000 000微弱的流星(最多12MAG)。同时,为甚至昏厥的流星注册了数百万次反射(最多14毫巴)。数据库中包含约250 000流星和5160个流入流的信息。这是一种独特的材料,可用于假设测试,以及关于流星现象的创建新理论。开发了地球大气中的流星物质分布的模型,近地球空间和太阳系,对航天器表面的影响。 Nikolaev。 Meteors的光学和无线电观察已经开始于2011年。两个Watec LCL902相机与光电镜头F = 85 mm,F / D = 1.8(FOV =(3.2x4.3),SLM = 12 mag,星形星形精度1 -6 arcsec)。开发了原始软件,用于在视频流中自动在线检测流入。在2011年期间,注册了105年的流星事件(角度长(0.5-4.5)°和亮度(1-5)MAG)。测定流星轨迹arc〜(10-12)arcsec的误差。确定流星轨迹的大圆杆的确定误差是〜(3-13)arcmin。在无线电带中,流星的观察通过从流星唤醒反射的信号的配准来执行。作为信号源,使用Kielce(波兰)的过度地平线FM站。窄梁天线,带电视/ FM调谐器和音频录制软件的计算机用于执行无线电观察。开发了原始软件,用于自动检测音频流中的流星。
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