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文摘
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1 m太阳望远镜多通道高分辨成像系统是望远镜的重要终端设备之一,目前由Hα通道(线心656.283 nm)和TiO通道( 705.8 nm)构成。主要介绍了多通道高分辨观测系统软件的设计。观测系统在功能上主要实现了Hα通道多波长点扫描观测模式,TiO通道多时间分辨率观测模式,以及为满足多通道发展的需求,如常规观测通道的增加以及探测器的更换等,在系统架构上采用了松耦合的分布式分层结构。 |
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其他语种文摘
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The New Vacuum Solar Telescope is an 1-meter,ground-based telescope which offers the unparalleled performance to solar observations. One of the important instruments in the NVST is the multichannel high-resolution imaging system,and in the system five main work wave length ranges,including Hα, TiO-band,G-band,Ca II ( 854.2nm) and He I ( 1083.0nm) are covered. Up to now,Hα and TiO-band channels are being used. The Hα channel is an arrow-band imaging system,equipped with a tunable Lyot filter. The interpretation of the narrow-band filtergram is difficult due to the crosstalk between the brightness and the Dopplershift modulation,therefore the observational system is required to perform the multi-offband observation in Hα channel to obtain a scanned profile in order to get meaningful physical information. The TiOband is abroad-band imaging system and uses a high-cadence CMOS. To achieve much higher cadence for some specific observations,it should support to decrease the FOV to increase the acquisition speed of the camera. However,the software provided by the camera manufacturedis failed to meet the observation need so that a new observational software system is constructed to satisfy the different observational needs in two channels. Taking the factors into account that another three channel will soon be added and high-cadence cameras will come into uses,the software architecture designed for NVST acquisition system should provide the scalability and the flexibility to adapt to changes in technologies throughout the lifetime of NVST. To achieve this goal,the distributed multi-terminal deployment and a loosely coupled system is adopted. The system is based on a tiered software architecture implemented as three primary systems that are the Observation Control System ( OCS),the Instrument Control System ( ICS) and the Data Handling System ( DHS). The OCS interacts with our staff and coordinates the overall observational operations. The ICS manages the instruments and the DHS manages the data operation including saving,processing and transferring. For decoupling the logical systems they can be developed independently so that the software architectures are separated into the functional architecture and the technical architecture,patterned similar to that adopted by the ACS ( ALMA Common Service). The technical architecture describes the underlying implementation of the technical aspect, such as threading and message broadcasting. The functional architecture, in contrast to the technical architecture,describes the functional behavior. Therefore the container /component mode is adopted to achieve this separation of architectures. The container manages many components which provide functional behavior. This paper describes the deployment of acquisition system and the design of the software architecture on the top of the container /component mode to achieve the scalability and flexibility to adapt the changes in observational instruments and in observational methods. |
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来源
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天文研究与技术
,2016,13(1):75-81 【核心库】
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关键词
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观测采集系统
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1 m太阳望远镜
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高分辨观测
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地址
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中国科学院云南天文台, 云南, 昆明, 650011
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语种
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中文 |
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文献类型
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研究性论文 |
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ISSN
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1672-7673 |
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学科
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自动化技术、计算机技术 |
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基金
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国家自然科学基金
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文献收藏号
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CSCD:5616935
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