[1] Bross B, Han W, Ohm J. WD4:working draft 4 of high-efciency video coding[S]. JCTVCF803, JCTVC of ISO/IEC and ITU-T, Torino, Italy, 2011.
[2] Park S, Park J, Jeon B. Report on the evaluation of HM versus JM[S]. JCTVC-D181, JCTVC of ISO/IEC and ITU-T, Daegu, Korea, 2011.
[3] Choi H, Nam J, Yoo J. Improvement of the rate control based on pixel-based URQ model for HEVC[S]. JCT-VC of ITU-T SG 16 WP 3 and ISO/IEC JTC 1/SC 29/WG 11, JCTVC-I0094, Geneva, CH, 2012.
[4] Li B, Li H, Li L. Rate control by R-Lambda model for HEVC[S]. JCT-VC of ITU-T SG 16 WP 3 and ISO/IEC JTC 1/SC 29/WG 11, JCTVC-K0103, Shanghai, China, 2012.
[5] Li B, Li H Q, Li L, Zhang J L. λ domain rate control algorithm for high efciency video coding[J]. IEEE Transactions on Image Processing, 2014, 23(9):3841-3854.
[6] Mccann K, Bross B, Han W. High efciency video coding (HEVC) test model 10(HM 10) encoder description[S]. JCTVC-L1002, JCTVC of ISO/IEC and ITU-T, Geneva, CH, 2013.
[7] Si J, Ma S, Gao W. Efcient bit allocation and CTU level rate control for high efciency video coding[J]. Picture Coding Symposium, 2013:89-92.
[8] Zhou Y, Tian L, Ning X. Intra-frame constant rate control scheme for high efciency video coding[C]//IEEE Internatianal Conference on Computing, Networking and Communications, Multimedia Computing and Communicaitons Symposium, 2013:648-652.
[9] Park D P, Choi H, Kim J S. LCU-level rate control for hierarchical prediction structure of HEVC[C]//IEEE International Conference on Consumer Electronics, 2013:114-115.
[10] Sanz-Rodriguez S, Schierl T. A rate control algorithm for HEVC with hierarchical GOP structures[C]//IEEE International Conference on Acoustics, Speech and Signal Processing, 2013:1719-1723.
[11] Tian L, Zhou Y, Cao X. A new rate-complexity-QP algorithm (RCQA) for HEVC intrapicture rate control[C]//IEEE Internatianal Conference on Computing, Networking and Communications, Multimedia Computing and Communicaitons Symposium, 2014:375-380.
[12] Chang Y, Kim. M. Hybrid codec-based intra-frame joint rate control for stereoscopic video[J]. IEEE Signal Processing Letters, 2011, 18(10):543-546.
[13] Võ D T, Nguyen T Q, Yea S, Vetro A. Adaptive fuzzy fltering for artifact reduction in compressed images and videos[J]. IEEE Transactions on Image Processing, 2009, 18(6):1166-1178.
[14] Ling T, Zhou Y. A new rate-complexity-QP algorithm (RCQA) for HEVC intra-picture rate control[C]//IEEE International Conference on Computing, Networking and Communications, 2014:375-380.
[15] Wang P, Zhang Y F, Hu H M, Li B. Region-classifcation-based flicker suppression algorithm of I-frames in HEVC[C]//International Conference on Image Processing, 2013:1986-1990.
[16] Hu S, Wang H, Kwong S. Adaptive quantization-parameter clip scheme for smooth quality in H.264/AVC[J]. IEEE Transactions on Image Processing, 2012, 21(4):1911-1919.
[17] Kwon D K, Shen M Y, Kuo C C J. Rate control for H.264 video with enhanced rate and distortion models[J]. IEEE Transactions on Circuits and Systems for Video Technology, 2007, 17(5):517-529.
[18] Choi J, Park D. A stable feedback control of the buffer state using the controlled Lagrange multiplier method[J]. IEEE Transactions on Image Processing, 1994, 3(5):546-558.
[19] Jiang M, Ling N. On Lagrange multiplier and quantizer adjustment for H.264 frame-layer video rate control[J]. IEEE Transactions on Circuits and Systems for Video Technology, 2006, 16(5):663-669.
[20] Dai M, Loguinov D, Radha H. Rate-distortion modeling of scalable video coders[C]//International Conference on Image Processing, 2004:1093-1096.
[21] Tsai W, Chou T. Scene change aware intra-frame rate control for H.264/AVC[J]. IEEE Transactions on Circuits and Systems for Video Technology, 2010, 20(12):1882-1886. |