System design choices in personal communications

Pottie, Gregory J.

doi:10.1109/98.468362

Cited by 89 publications

(47 citation statements)

References 36 publications

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“…In addition, the optimal reuse also varies with the number of antennas. Hence, since an advanced TDMA system would most likely adapt its reuse dynamically [57], [58] based on whichever operating point is chosen, a true measure of the spectral efficiency growth with the number of antennas should be calculated with the most adequate reuse at every point. This is, therefore, how the next set of results was generated.…”

Section: Impact Of the Number Of Antennasmentioning

confidence: 99%

Spectral efficiency of FDMA/TDMA wireless systems with transmit and receive antenna arrays

Farrokhi¹,

Lozano²,

Foschini³

et al. 2002

IEEE Trans. Wireless Commun.

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Abstract-In recent years, the ever growing need for higher capacity in wireless systems has fueled the interest in exploiting the spatial dimension-through the use of antennas arrays-to improve the utilization of the available radio spectrum. As a result, a large number of space-time techniques have been proposed wherein arrays are used to mitigate interference and enhance signal levels. More recently, information theory has shown that, with spatial data multiplexing, very large spectral efficiencies can be attained in multipath channels using transmit and receive antenna arrays. In this paper, the system benefit of using transmit and receive arrays in multicell scenarios is evaluated as a function of both the propagation environment and the number of antennas. Our results confirm the potential for very large system spectral efficiencies associated with the use of transmit and receive arrays, in particular in interference-limited rich-multipath conditions wherein the ability to perform interference mitigation-leading to tighter spectral reuse-and spatial data multiplexing grows with the number of antennas. In environments free of multipath, the potential is smaller but still very significant, associated with interference mitigation and signal enhancement only, since spatial data multiplexing is no longer possible.

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Section: Impact Of the Number Of Antennasmentioning

confidence: 99%

Spectral efficiency of FDMA/TDMA wireless systems with transmit and receive antenna arrays

Farrokhi¹,

Lozano²,

Foschini³

et al. 2002

IEEE Trans. Wireless Commun.

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“…In order to meet these challenges, we apply a dynamic resource allocation approach, which requires the knowledge of channel conditions. In [2], it is claimed that such a design methodology results in higher system performance when compared to interference-averaging techniques (such as CDMA) and much higher performance when compared to fixed resource allocation methods (such as e.g. fixed frequency planning).…”

Section: Introductionmentioning

confidence: 99%

Performance Evaluation of Bit Loading, Subcarrier Allocation, and Power Control Algorithms for Cellular OFDMA Systems

Pietrzyk

Janssen

2004

Personal Wireless Communications

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Abstract.We consider the problem of radio resource allocation for QoS support in the downlink of a cellular OFDMA system. The major impairments present are co-channel interference (CCI) and frequency selective fading. The allocation problem involves assignment of base stations, subcarriers and bits, as well as power control, for multiple users. We evaluate the performance of a three-stage, low-complexity, heuristic algorithm, which allows to distribute radio resources among multiple users according to theirs individual QoS requirements, while at the same time maintaining the QoS of already established links in all co-channel cells. The evaluation includes checking system operation for various conditions described by different: a) delay spread, b) data rate required by a single user and c) path loss. It is shown that the proposed method is superior in terms of offered traffic and blocking probability to classical method based on FDMA with power control. Also, the performance of our scheme increases in highly frequency selective environment, disastrous for classical fixed schemes, since our method benefits from multiuser diversity.

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“…One of the most powerful techniques to achieve reliable communication over a wireless channel is a diversity which ensures that more than one copy of the transmitted signal arrives at the receiver (Rx) on statistically independent channels [3]. According to the domain where diversity is introduced, diversity techniques are classified into time [4], frequency [5] and spatial [6] diversity.…”

Section: Introductionmentioning

confidence: 99%

Alamouti distributed space-time coding with relay selection

Al-Qahtani

Alsanie

2014

16th International Conference on Advanced Communication Technology

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Abstract-This paper examines the impact of relay selection on the performance of Alamouti distributed orthogonal spacetime block coding (Al-DSTC) in a two-relay network. The SNRmaximizing is implemented at the receiver based on selecting the relay to cooperate or not. The receiver can always find the optimal selected relay by exhaustive search where the number of relays is only two. It is shown in this work that the proposed scheme obtains full diversity order and provides an additional array gain compared to conventional Al-DSTC. The proposed scheme has a lower bit error rate if compared to the beamforming when the transmit power is high. Our results show that the proposed scheme is more power efficient than the conventional Al-DSTC and cooperative beamforming. Also, the proposed scheme increase life time of the relay since 50% of the time the relay is off.

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System design choices in personal communications

Cited by 89 publications

References 36 publications

Spectral efficiency of FDMA/TDMA wireless systems with transmit and receive antenna arrays

Spectral efficiency of FDMA/TDMA wireless systems with transmit and receive antenna arrays

Performance Evaluation of Bit Loading, Subcarrier Allocation, and Power Control Algorithms for Cellular OFDMA Systems

Alamouti distributed space-time coding with relay selection

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