Duplexing, Resource Allocation and Inter-Cell Coordination Design Recommendations for Next-Generation Wireless Systems

Angeliki Alexiou, Dan Avidor, Peter Bosch, S Das, Piyush Gupta, Bertrand Hochwald, Thierry E. Klein, Jonathan Ling, Angel Lozano, Thomas L. Marzetta, Sayandev Mukherjee, Sape Mullender, Constantinos B. Papadias, Reinaldo A. Valenzuela, Harish Viswanathan

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Abstract

Coexistence of different access technologies, hierarchical cellular deployment, a wide variety of data services, requirements for transparent operation across different technologies, adaptivity to varying network conditions and mobility and quality of service (QoS) constraints introduce a number of challenges in the design of future generation systems and the specification of new air interfaces, such as efficiency and flexibility in the utilization of spectrum, dynamic resource allocation and exploitation of the multiuser diversity and reconfigurable interference management and inter-cell coordination. Three critical issues for the design of next generation systems are addressed: (i) duplexing, (ii) scheduling and resource allocation and (iii) interference and inter-cell coordination. A number of research directions are presented, which constitute promising potential candidates for next generation systems specification.
Original languageEnglish
Pages (from-to)77-93
Number of pages17
JournalWireless communications & mobile computing
Volume5
Issue number1
DOIs
Publication statusPublished - Feb 2005

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Resource allocation
Specifications
Quality of service
Scheduling
Air

Keywords

  • IR-54506
  • EWI-682
  • METIS-228762

Cite this

Alexiou, Angeliki ; Avidor, Dan ; Bosch, Peter ; Das, S ; Gupta, Piyush ; Hochwald, Bertrand ; Klein, Thierry E. ; Ling, Jonathan ; Lozano, Angel ; Marzetta, Thomas L. ; Mukherjee, Sayandev ; Mullender, Sape ; Papadias, Constantinos B. ; Valenzuela, Reinaldo A. ; Viswanathan, Harish. / Duplexing, Resource Allocation and Inter-Cell Coordination Design Recommendations for Next-Generation Wireless Systems. In: Wireless communications & mobile computing. 2005 ; Vol. 5, No. 1. pp. 77-93.
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abstract = "Coexistence of different access technologies, hierarchical cellular deployment, a wide variety of data services, requirements for transparent operation across different technologies, adaptivity to varying network conditions and mobility and quality of service (QoS) constraints introduce a number of challenges in the design of future generation systems and the specification of new air interfaces, such as efficiency and flexibility in the utilization of spectrum, dynamic resource allocation and exploitation of the multiuser diversity and reconfigurable interference management and inter-cell coordination. Three critical issues for the design of next generation systems are addressed: (i) duplexing, (ii) scheduling and resource allocation and (iii) interference and inter-cell coordination. A number of research directions are presented, which constitute promising potential candidates for next generation systems specification.",
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author = "Angeliki Alexiou and Dan Avidor and Peter Bosch and S Das and Piyush Gupta and Bertrand Hochwald and Klein, {Thierry E.} and Jonathan Ling and Angel Lozano and Marzetta, {Thomas L.} and Sayandev Mukherjee and Sape Mullender and Papadias, {Constantinos B.} and Valenzuela, {Reinaldo A.} and Harish Viswanathan",
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Alexiou, A, Avidor, D, Bosch, P, Das, S, Gupta, P, Hochwald, B, Klein, TE, Ling, J, Lozano, A, Marzetta, TL, Mukherjee, S, Mullender, S, Papadias, CB, Valenzuela, RA & Viswanathan, H 2005, 'Duplexing, Resource Allocation and Inter-Cell Coordination Design Recommendations for Next-Generation Wireless Systems' Wireless communications & mobile computing, vol. 5, no. 1, pp. 77-93. https://doi.org/10.1002/wcm.289

Duplexing, Resource Allocation and Inter-Cell Coordination Design Recommendations for Next-Generation Wireless Systems. / Alexiou, Angeliki; Avidor, Dan; Bosch, Peter; Das, S; Gupta, Piyush; Hochwald, Bertrand; Klein, Thierry E.; Ling, Jonathan; Lozano, Angel; Marzetta, Thomas L.; Mukherjee, Sayandev; Mullender, Sape; Papadias, Constantinos B.; Valenzuela, Reinaldo A.; Viswanathan, Harish.

In: Wireless communications & mobile computing, Vol. 5, No. 1, 02.2005, p. 77-93.

Research output: Contribution to journalArticleAcademicpeer-review

TY - JOUR

T1 - Duplexing, Resource Allocation and Inter-Cell Coordination Design Recommendations for Next-Generation Wireless Systems

AU - Alexiou, Angeliki

AU - Avidor, Dan

AU - Bosch, Peter

AU - Das, S

AU - Gupta, Piyush

AU - Hochwald, Bertrand

AU - Klein, Thierry E.

AU - Ling, Jonathan

AU - Lozano, Angel

AU - Marzetta, Thomas L.

AU - Mukherjee, Sayandev

AU - Mullender, Sape

AU - Papadias, Constantinos B.

AU - Valenzuela, Reinaldo A.

AU - Viswanathan, Harish

N1 - Imported from DIES

PY - 2005/2

Y1 - 2005/2

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AB - Coexistence of different access technologies, hierarchical cellular deployment, a wide variety of data services, requirements for transparent operation across different technologies, adaptivity to varying network conditions and mobility and quality of service (QoS) constraints introduce a number of challenges in the design of future generation systems and the specification of new air interfaces, such as efficiency and flexibility in the utilization of spectrum, dynamic resource allocation and exploitation of the multiuser diversity and reconfigurable interference management and inter-cell coordination. Three critical issues for the design of next generation systems are addressed: (i) duplexing, (ii) scheduling and resource allocation and (iii) interference and inter-cell coordination. A number of research directions are presented, which constitute promising potential candidates for next generation systems specification.

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