论文信息 - Optical terminals for microsatellite swarms

Optical terminals for microsatellite swarms

We studied terminal architectures and configurations for optical cross-links within microsatellite swarms and assessed the applicability of available technologies. Typical applications for microsatellite swarms are phased array telescopes, interferometric missions, and space-based radar. Key drivers for an optical terminal are well-developed technology and ruggedness. The terminal should do without automatic tracking or fine pointing, coarse pointing should be simple. As an example we cover a scenario where four microsatellites form a planar, square formation of 1 km side length, where the data rate is 100 kbit/s, and where an active double-pass lidar between each of the satellites provides a ranging accuracy of better than 10 m. The terminal transmit power is some 160 mW at a wavelength of 980 nm, the receive apertures have a diameter of 5 mm, and the size, weight, and power requirement of one terminal is estimated to be 60X80X70 mm3, 900 g, and 5 W, respectively.

[1] A. Tomasini,et al. Performance limits in visible and infrared imager sensors , 1999, International Electron Devices Meeting 1999. Technical Digest (Cat. No.99CH36318).

[2] David Green,et al. Performance analysis of optical orthogo-nal codes in CDMA LANs , 1998 .

[3] Ying Li,et al. Optical CDMA via temporal codes , 1992, IEEE Trans. Commun..

[4] Antonio J. Mendez,et al. Lasercom crosslinking for satellite clusters , 2001, SPIE LASE.

[5] P. J. Winzer,et al. Sensitivity enhancement of optical receivers by impulsive coding , 1999 .

[6] W R Leeb. Degradation of signal to noise ratio in optical free space data links due to background illumination. , 1989, Applied optics.

[7] W. Pratt. Laser Communication Systems. , 1969 .

[8] R. A. Cryan,et al. Novel laser intersatellite communication system employing optically preamplified PPM receivers , 1995 .