[1] TSAO J Y. Solid state lighting, lamps, chips and materials for tomorrow ［J］.IEEE Circuits & Device Magazine, 2004, 20(3):18-37.

[2] BERGH, CRAFORD G,DUGGAL A, et al.. The promise and challenge of solid state lighting［J］.Physics Today, 2001, 54(13):42-47.

[3] STEIGERWALD D A,BHAT J C,COLLINS D D, et al.. Illimination with solid state lighting technology ［J］.IEEE Journal of Selected Topics in Quantum Electronics, 2002, 8(2):310-320.

[4] JIN P, YU CH Y, ZHOU Q F, et al.. Superior application of LED to street lighting ［J］. Opt. Precision Eng., 2011, 19(1): 51-55. (in Chinese)

[5] TU D W, WU R M, YANG H L, et al.. Effect of optical structure on output light intensity distribution in LED package［J］. Opt. Precision Eng., 2008, 16(5): 832-838. (in Chinese)

[6] VANDRIEL W D. Solid state lighting reliability: from components to system ［C］. Proceeding China SSL, 2010, 202-206.

[7] KOH S, VANDRIEL W D,YUAN C,et al.. Solid state lighting system reliability ［C］. Proceeding China SSL, 2011,121-126.

[8] FARLEY D, VAN DRIEL W D, ZHANG G Q. Using physics of failure and modeling in SSL system reliability assessment ［C］. Proceeding China SSL, 2011, 127-131.

[9] SUHIR E. Accelerated life testing in photonics packaging: Its objectives, role, attributes, challenges, pitfalls, predictive models, and interaction with other accelerated stress categories ［C］.Laser diodes, optoelectronic devices, and heterogenous integration, 2003, 175-196.

[10] GAO J H, PENG H, WU H Y, et al.. Evaluation of power LED operation life ［J］. Semiconductor technology, 2009, 34(5): 452-457. (in Chinese)

[11] LI SH L, YANG S, SUN D. Evaluation model of environmental worthiness for military aircraft ［J］. Acta Aeronautica et Astronautica Sinica, 2009, 30(6):1053-1057. (in Chinese)

[12] WU Y Q, FU Y, AO L. Equipment environmental worthiness evaluation method in representative environmental condition ［J］. Equipment environmental engineering, 2010, 7(6): 109-112. (in Chinese)