Abstract
We propose an efficient control channel resource allocation approach to enhance the performance of voice-over-IP (VoIP) in orthogonal frequency division multiple access- (OFDMA-) based next generation mobile communication systems. As the long-term evolution (LTE) of universal terrestrial radio access network (UTRAN), evolved UTRAN (E-UTRAN) is the first OFDMA-based packet radio network and thus selected in this paper as an application example. Our proposed physical downlink control channel (PDCCH) resource allocation approach for E-UTRAN is composed of bidirectional power control, inner loop link adaptation (ILLA), and outer loop link adaptation (OLLA) algorithms. Its effectiveness is validated through large-scale radio system level simulations, and simulation results confirm that VoIP capacity with dynamic scheduling can be further enhanced with this PDCCH resource allocation approach. Moreover, the VoIP performance requirements for international mobile telecommunications-advanced (IMT-Advanced) radio interface technologies can be met with dynamic scheduling together with proposed PDCCH resource allocation. Besides E-UTRAN, this approach can be introduced to other OFDMA-based mobile communication systems for VoIP performance enhancement as well.
Highlights
Mobile communication systems are gradually transforming from the systems mainly oriented to voice service to ones that can handle more high data rate services
Besides enhanced performance with proposed physical downlink control channel (PDCCH) power control, baseline performance without PDCCH power control is simulated for benchmarking purpose
We studied PDCCH resource allocation method oriented for VoIP optimized dynamic scheduling
Summary
Mobile communication systems are gradually transforming from the systems mainly oriented to voice service to ones that can handle more high data rate services. Deploying VoIP in OFDMA-based packet radio systems encounters one unique challenge, that is, to satisfy high VoIP capacity demand with only limited physical layer control signaling resources. During the E-UTRAN standardization in Third Generation Partnership Project (3GPP), different solutions and schemes [7,8,9,10,11] have already been studied to overcome the limitations of PDCCH resources on VoIP capacity. All these aim at reducing the consumption of PDCCH resources and the possibility of conducting effective PDCCH resource allocation is not considered. They are simple yet efficient and can be implemented requiring no changes to the existing 3GPP technical specifications
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