Quality-based handover
First Claim
1. A transcoder and rate adaptation unit comprising:
- an encoding part for encoding a downlink signal; and
a decoding part for decoding an uplink signal,wherein said transcoder and rate adaptation unit is capable of simultaneously transmitting said downlink signal on two separately controlled downlink channels and is capable of receiving two uplink signals on two separately controlled uplink channels,wherein further, said transcoder and rate adaptation unit further includes;
a switching means for the selection of one of said two uplink signals;
a first handling means for handling said downlink signal and a first of said two uplink signals on a first communication channel; and
a second handling means for handling said downlink signal and a second of said two uplink signals on a second communication channel.
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0 Petitions
Accused Products
Abstract
The present invention relates to the technique of handover in mobile telephony. A new Transcoder and Rate Adaptation Unit (100 FIG. 3) is introduced which provides two uplink (230, 250 respectively, FIG. 3) and two downlink (240, 260 respectively, FIG. 3) channels. The use of these two channels (230, 250 respectively, FIG. 3) on the uplink during handover provides for the use of distributed handover on the uplink. The result minimizes the audible interruption during handover by minimizing the loss of Traffic Channel frames to what is possible within the GSM standard. Additionally, interruption of the speech or background noise during these lost frames is masked by an error concealment algorithm, since the Transcoder and Rate Adaptation Unit (100 FIG. 3) still has information from the Base Transceiver Station responsible for transmission before the handover.
66 Citations
8 Claims
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1. A transcoder and rate adaptation unit comprising:
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an encoding part for encoding a downlink signal; and a decoding part for decoding an uplink signal, wherein said transcoder and rate adaptation unit is capable of simultaneously transmitting said downlink signal on two separately controlled downlink channels and is capable of receiving two uplink signals on two separately controlled uplink channels, wherein further, said transcoder and rate adaptation unit further includes; a switching means for the selection of one of said two uplink signals; a first handling means for handling said downlink signal and a first of said two uplink signals on a first communication channel; and a second handling means for handling said downlink signal and a second of said two uplink signals on a second communication channel. - View Dependent Claims (2, 3, 4)
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5. A mobile radiocommunication system, comprising:
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a base station sub-system including radiocommunication equipment for managing transmission paths between a mobile radio station and a switching center; said switching center, coupled to said base station sub-system, for managing communications between said base station and said mobile radio station; and a transcoder and rate adaptation unit comprising; an encoding part for encoding a downlink signal; and a decoding part for decoding an uplink signal, wherein said transcoder and rate adaptation unit is capable of simultaneously transmitting said downlink signal on two separately controlled downlink channels and is capable of receiving two uplink signals on two separately controlled uplink channels, wherein further, said transcoder and rate adaptation unit further includes; a switching means for the selection of one of said two uplink signals; a first handling means for handling said downlink signal and a first of said two uplink signals on a first communication channel; and a second handling means for handling said downlink signal and a second of said two uplink signals on a second communication channel. - View Dependent Claims (6, 7)
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8. A transcoding and rate adapting method for use in a radiocommunication system, said method comprising the steps of:
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encoding a downlink signal; decoding an uplink signal; simultaneously transmitting said downlink signal on two separately controlled downlink channels; receiving two uplink signals on two separately controlled uplink channels; selecting one of said two uplink signals; handling said downlink signal and a first of said two uplink signals on a first communication channel; and handling said downlink signal and a second of said two uplink signals on a second communication channel.
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Specification