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Since the development of the Baker-Nunn camera, which was the first dedicated optical satellite tracking network system, various types of optical systems have been developed. Although tracking of LEO satellites is now mostly performed using radar systems, usage of optical systems is still increasing for the determination of GEO satellite orbits. Optical systems have obvious disadvantages compared with radar systems for LEO object tracking, but the cost and technology of an optical tracking system makes this type of system more accessible for most users. Currently, most technologies for making optical tracking systems such as optics, mechanical designs, control electronics, and detectors are produced at a much higher level compared with the Bake -Nunn camera era. If we are interested in tracking only tens or a few hundreds of objects rather than tens of thousands, an optical tracking system can be a cost-effective alternative for satellite tracking.
The primary goal of the OWL-Net (Optical Wide-field patroL Network) is to acquire and maintain orbital information of LEO satellites by purely optical means. To overcome the limits of optical observation, we need a global network of telescopes that operate completely autonomously. Optics should be designed to get a satellite safely into the field of view with TLE data and the mount system should be fast enough not only to get several shots in a single pass but also to follow the satellite. We have designed a detector system capable of taking many points in a single shot. For easy maintenance, we have designed a custom-made telescope control system in which the whole system is designed using a unit base for easy replacement when needed.
Each observatory is controlled by one master computer; called the Site Operating Sever (SOS). This computer is always connected to headquarters (HQ). The SOS maintains scheduling information transferred from HQ and commands observation according to the schedule. After observation, the detector system reduces observation data into time and coordinates in an ASCII form, and transfers them to HQ through the SOS. All the environmental data are gathered into a single custom-made environmental control board, and then transferred to HQ through the SOS. CCTVs, located both inside and outside dome, continuously monitor the current status of the observatory, and selectively captured images are also transferred to HQ in near real time.
1단계:SRR(2011년 4월),SDR(2011년 10월),PDR(2012년 5월),CDR(2012년 12월), 시스템사업(2013년), 2단계:1호기 홍콩(2014년), 2호기 모로코(2015년), 3호기 이스라엘(2015년), 4호기 미국(2016년), 5호기, 통합시험(2016년)

Development Schedule

OWL-1(MT,OP,TC,DT)와 OS SOS, ST 교류 / HQ, OC, NOS의 OWL-2, OWL-3, OWL-4, OWL-5의 교류

Schematic diagram of overall OWL-Net

OWL-Net Mongol site photos

OWL-Net Mongol site

OWL-Net Morocco site photos

OWL-Net Morocco site