Title :
Linear prediction based packet loss concealment algorithm for PCM coded speech
Author :
Gündüzhan, Emre ; Momtahan, Kathryn
Author_Institution :
Signal Process. Group, Nortel Networks, Germantown, MD, USA
fDate :
11/1/2001 12:00:00 AM
Abstract :
One of the well-known problems in real-time packetized voice applications is the degradation in voice quality due to delayed or misrouted packets. When a voice packet does not arrive at the receiver on time, the receiver needs a packet loss concealment algorithm to generate a signal instead of the missing voice segment. In this paper we describe a high performance packet loss concealment algorithm for pulse code modulation (PCM) coded speech. The algorithm extracts the residual signal of the previously received speech by linear prediction analysis, uses periodic replication to generate an approximation for the excitation signal of missing speech, and generates synthesized speech using this excitation. It also performs overlap-and-adding and scaling operations to smooth out transitions at frame boundaries. The new algorithm is compared to other algorithms by subjective quality tests, and is found to be better than the existing algorithms in some cases
Keywords :
modulation coding; packet switching; prediction theory; pulse code modulation; speech coding; G.711; PCM coded speech; delayed packets; excitation signal; linear prediction analysis; linear prediction based packet loss concealment algorithm; misrouted packets; overlap-and-adding operations; periodic replication; pulse code modulation coded speech; real-time packetized voice applications; residual signal; scaling operations; subjective quality tests; synthesized speech; voice packet; voice quality; voice segment; Degradation; Delay; Modulation coding; Performance loss; Phase change materials; Pulse modulation; Signal generators; Speech analysis; Speech coding; Speech synthesis;
Journal_Title :
Speech and Audio Processing, IEEE Transactions on
