Theoretical Performance Analysis of the IEEE 802.15.3a UWB Channel Model

Hao, Kei; Gubner, John A.

doi:10.1109/glocom.2007.341

Cited by 11 publications

(5 citation statements)

References 16 publications

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“…In order to verify the performances of CA-DFC and VL-DFC based MUD algorithms in the indoor environment, which is the most common situation where UWB technology can be employed, we carry out this experiment. Without loss of generality, the recommended IEEE 802.15.3a CM2 multipath channel [ 50 , 51 ] is used here, and the path with the strongest energy is gathered at the receiver.…”

Section: Numerical Results and Analysismentioning

confidence: 99%

The Applications of Decision-Level Data Fusion Techniques in the Field of Multiuser Detection for DS-UWB Systems

Yang

Shi

et al. 2015

Sensors

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In this paper, the decision-level data fusion techniques are extended to the multiuser detection (MUD) field. Then two novel MUD algorithms, that is the chairman arbitrating decision-level fusion criterion (CA-DFC) based MUD algorithm and the veto logic decision-level fusion criterion (VL-DFC) based MUD algorithm, are proposed for DS-UWB communication systems. In CA-DFC based method, the chairman can make his arbitration among the preliminary decisions from sub-optimal detectors by his own rule. In the VL-DFC based method, the undetermined bits in these preliminary decisions are considered to construct a simplified solution space, and then the chairman can make his final decision within this space. Simulation results demonstrate that the performances of CA-DFC and VL-DFC based MUD algorithms are superior to those of other sub-optimal MUD algorithms, and even close to that of OMD. Moreover, both of these proposed algorithms have lower computational complexity than OMD, which reveals their efficiency. Compared with CA-DFC, VL-DFC based algorithm achieves a little improvement in its performance, at the cost of the increment in its computational complexity. Thus, they can be applied to different practical situations.

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Section: Numerical Results and Analysismentioning

confidence: 99%

The Applications of Decision-Level Data Fusion Techniques in the Field of Multiuser Detection for DS-UWB Systems

Yang

Shi

et al. 2015

Sensors

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“…Although (3) gives the exact average SINR of the UWB receiver, it is unwieldy. As a simplification, the SINR in (3) can be approximated as…”

Section: Analysis Of the Output Sinrmentioning

confidence: 99%

“…After the IEEE 802.15.SG3a study group released four UWB channel models in 2002 [2], many researchers have studied the output SNR or the output SINR based on these channel models. Closedform expressions for the average output SNR were derived for Rake receivers in [3], and different SNR estimators were proposed in [4]. A closed-form expression for the output SINR of a Rake receiver was derived based on a constant delay spacing instead of the multipath delay in [5], where the multiple-access interference (MAI) was considered but other interferences, such as the inter-path interference (IPI), the inter-chip interference (ICI) and the inter-symbol interference (ISI), were ignored.…”

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confidence: 99%

SINR analysis of BPSK UWB considering IPI and ICI in IEEE channel models and its application

Zhao

Chen

2009

2009 Fourth International Conference on Communications and Networking in China

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Closed-form expressions for the output signal-tointerference-plus-noise ratio (SINR) in ultra-wideband (UWB) receivers are derived for the IEEE channel models. Unlike results in the literature where only the inter-symbol and/or multipleaccess interferences are considered, the derivation in this paper also takes into account inter-path and inter-chip interferences. Effects of the spreading gain and the pulse duration on the output SINR are examined. As an application, the optimal integration interval that maximizes the output SINR for a transmitted reference UWB receiver is studied.Index Terms-Average power, integration interval, signal-tointerference-plus-noise ratio, ultra-wide bandwidth. I. INTRODUCTIONAmong the properties of the received ultra-wideband (UWB) signals, the output signal-to-noise ratio (SNR) or the output signal-to-interference-plus-noise ratio (SINR) determine the performances of UWB systems [1]. After the IEEE 802.15.SG3a study group released four UWB channel models in 2002 [2], many researchers have studied the output SNR or the output SINR based on these channel models. Closedform expressions for the average output SNR were derived for Rake receivers in [3], and different SNR estimators were proposed in [4]. A closed-form expression for the output SINR of a Rake receiver was derived based on a constant delay spacing instead of the multipath delay in [5], where the multiple-access interference (MAI) was considered but other interferences, such as the inter-path interference (IPI), the inter-chip interference (ICI) and the inter-symbol interference (ISI), were ignored. In [6], the SINR of a Rake receiver was analyzed by taking both ISI and MAI into account.Whilst the aforementioned works give analytical expressions to estimate the SNR or the SINR for UWB systems, to the best of the authors' knowledge, none of these works has taken into account all the necessary interferences in the channel. Due to the extremely large bandwidth of a UWB system, in addition to MAI and ISI, IPI and ICI may also occur in the systems and have significant effects on the SINR [7]. Therefore, it is of great interest to develop a framework that calculates the output SINR in a multi-user environment by taking IPI, ICI as well as MAI and ISI into account.In this paper, we derive the analytical expression for the output SINR of a direct-sequence (DS) binary phase shift keying (BPSK) UWB system for the IEEE 802.15.3a channel models, by taking into account IPI, ICI as well as ISI and MAI. In the derivation, the second-order moments of the signal component and the interference components are calculated.

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“…Authors modelled the modeled modified S-V modeled as a two-dimensional augmented cluster process in [2].Different cases were considered for channel parameters to evaluate closed-form expression. The performance evaluation of model [2] in terms of SNR with two different types of receivers by the theoretical analysis and treating clustered process as a two-dimensional Poisson distribution explained in [3]. The performance metrics were compared by deriving closed form expressions and by numerical analysis.…”

Section: Literature Reviewmentioning

confidence: 99%

Multi-hope relay based high capacity energy efficient model for ultra wideband communication system

Rajanna¹,

Chandrashrkar²,

KishanRao³

2017

IJET

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Demanding large bandwidth and signal robustness over a short distance, ultra wideband communication systems plays an important role. UWB systems exhibits very low spectral density, implies that the interference to narrowband systems is very small. The relay based communication has the advantages of coverage extension, range extension, increase data rates and green communication. The relay based communication with UWB frequency is used to increase the coverage area by using of relays and increasing the data rates by increasing SNR of the links using multi-hop communication. In this paper, capacity and bit error rate of relay based UWB system for indoor and outdoor channel models are analyzed. key Terms-UWB, green communication, multi-hop, capacity, bit error rate, spectral density.

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Theoretical Performance Analysis of the IEEE 802.15.3a UWB Channel Model

Cited by 11 publications

References 16 publications

The Applications of Decision-Level Data Fusion Techniques in the Field of Multiuser Detection for DS-UWB Systems

The Applications of Decision-Level Data Fusion Techniques in the Field of Multiuser Detection for DS-UWB Systems

SINR analysis of BPSK UWB considering IPI and ICI in IEEE channel models and its application

Multi-hope relay based high capacity energy efficient model for ultra wideband communication system

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