Proceedings ArticleDOI
Search Space Design for Cross-Carrier Scheduling in Carrier Aggregation of LTE-Advanced System
Anxin Li,Kazuaki Takeda,Nobuhiko Miki,Yuan Yan,Hidetoshi Kayama +4 more
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TLDR
Two novel methods of search space design of Carrier aggregation (CA) are presented and a novel randomization scheme is proposed to generate independent hashing functions for search spaces of different CCs.Abstract:
CA(Carrier aggregation) is one of the most important techniques for LTE-Advanced system because of its capability to support wide bandwidth while achieving backward compatibility. In order to improve performance of control information transmission, cross-carrier scheduling is to be supported, i.e. control information on one CC (Component Carrier) can assign radio resource on another CC. Design of search space, in which control information is mapped, for different CCs is one of the most essential issues of cross-carrier scheduling. This paper presents two novel methods of search space design. In the first method, UE (User Equipment)-specific offset is introduced among search spaces of different CCs. Due to the UE-specific offsets, search spaces of different UEs are staggered with each other and probability that search space of one UE is wholly overlapped with that of another UE can be greatly reduced. In the second method, a novel randomization scheme is proposed to generate independent hashing functions for search spaces of different CCs. Because of ideal randomization of the proposed method, search space overlapping of different UEs is reduced. Simulation results show the proposed methods can effectively reduce blocking probability compared with existing methods.read more
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Patent
Enhanced pdcch overlapping with the pdcch region
Abstract: The present invention relates to configuring search spaces of at least two coexisting control channels in a communication system. In particular, the control channels are defined in at least partially overlapping regions, wherein the overlapping is in the time and/or frequency domain. This configuration enables coexistence of the at least two channels in the same resource grid and better utilization of the resources. Furthermore, it enables sharing of the reference signals.
Journal ArticleDOI
Dynamic downlink aggregation carrier scheduling scheme for wireless networks
TL;DR: A novel dynamic aggregation carrier (DAC) scheme for downlink transmission, which enables CCs to aggregate with each other in a dynamic manner, and offers good performances in terms of delay and throughput while reducing energy consumption and the signalling overhead at UEs.
Proceedings ArticleDOI
Energy efficient carrier aggregation algorithms for next generation cellular networks
TL;DR: This work argues that it is possible to operate the LTE-A users on a small subset of component carriers to reduce their energy consumption, without any appreciable loss to the scheduling gain and proposes efficient, greedy algorithms with performance guarantees that are also simple to implement.
Proceedings ArticleDOI
A resource scheduling algorithm based on carrier weight in LTE-Advanced system with Carrier Aggregation
TL;DR: Simulation results show that the proposed improved proportional fair (PF) scheduling algorithm can effectively improve the performance of cell edge users and LTE users.
Journal ArticleDOI
Resource Block Allocation with Carrier-Aggregation: A Strategy-Proof Auction Design
TL;DR: This work first formulate the resource allocation problem in carrier aggregation as a non-linear optimization problem, which is proved to be NP-hard, and proposes a strategy-proof auction with a greedy resource allocation algorithm to find an efficient carrier activation and resource allocation solution under the QoS requirements of UEs.
References
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Journal ArticleDOI
LTE-advanced: next-generation wireless broadband technology [Invited Paper]
TL;DR: An overview of the techniques being considered for LTE Release 10 (aka LTEAdvanced) is discussed, which includes bandwidth extension via carrier aggregation to support deployment bandwidths up to 100 MHz, downlink spatial multiplexing including single-cell multi-user multiple-input multiple-output transmission and coordinated multi point transmission, and heterogeneous networks with emphasis on Type 1 and Type 2 relays.
Journal ArticleDOI
Carrier aggregation framework in 3GPP LTE-advanced [WiMAX/LTE Update]
TL;DR: Support for carrier aggregation requires enhancement to the LTE Release 8/9 PHY, MAC, and RRC layers while ensuring that LTE Release 10 maintains backward compatibility to LTE Release8/9.
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