Zoran Hadzi-Velkov scite author profile

Zoran Hadzi-Velkov

4Publications

255Citation Statements Received

87Citation Statements Given

How they've been cited

326

255

How they cite others

Affiliations

Saints Cyril and Methodius University of Skopje, University of Ss. Cyril and Methodius in Trnava, Inform (Germany)

Publications

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Saturation throughput - delay analysis of IEEE 802.11 DCF in fading channel

Hadzi-Velkov

Spasenovski

126

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In this paper, we analytically analyzed the impact of an error-prone channel over all performance measures in a trafficsaturated IEEE 802.11 WLAN. We calculated station's transmission probability by using the modified Markov chain model of the backoff window size that considers the frame-error rates and maximal allowable number of retransmission attempts. The frame error rate has a significant impact over theoretical throughput, mean frame delay, and discard probability. The peak throughput of a WLAN is insensitive of the maximal number of retransmissions. Discard probabilities are insensitive to the station access method, Basic or RTS/CTS.

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Optimal time sharing in underlay cognitive radio systems with RF energy harvesting

Rakovic¹,

Denkovski²,

Hadzi-Velkov³

et al. 2015

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Abstract-Due to the fundamental tradeoffs, achieving spectrum efficiency and energy efficiency are two contending design challenges for the future wireless networks. However, applying radio-frequency (RF) energy harvesting (EH) in a cognitive radio system could potentially circumvent this tradeoff, resulting in a secondary system with limitless power supply and meaningful achievable information rates. This paper proposes an online solution for the optimal time allocation (time sharing) between the EH phase and the information transmission (IT) phase in an underlay cognitive radio system, which harvests the RF energy originating from the primary system. The proposed online solution maximizes the average achievable rate of the cognitive radio system, subject to the ε-percentile protection criteria for the primary system. The optimal time sharing achieves significant gains compared to equal time allocation between the EH and IT phases.

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Wireless Networks with Energy Harvesting and Power Transfer: Joint Power and Time Allocation

Hadzi-Velkov

Nikoloska

Karagiannidis

et al. 2016

IEEE Signal Process. Lett.

100

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Abstract-In this paper, we consider wireless powered communication networks which could operate perpetually, as the base station (BS) broadcasts energy to the multiple energy harvesting (EH) information transmitters. These employ "harvest then transmit" mechanism, as they spend all of their energy harvested during the previous BS energy broadcast to transmit the information towards the BS. Assuming time division multiple access (TDMA), we propose a novel transmission scheme for jointly optimal allocation of the BS broadcasting power and time sharing among the wireless nodes, which maximizes the overall network throughput, under the constraint of average transmit power and maximum transmit power at the BS. The proposed scheme significantly outperforms "state of the art" schemes that employ only the optimal time allocation. If a single EH transmitter is considered, we generalize the optimal solutions for the case of fixed circuit power consumption, which refers to a much more practical scenario.

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Level crossing rate and average fade duration of the double Nakagami-m random process and application in MIMO keyhole fading channels

2008

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Abstract-We present novel exact expressions and accurate closed-form approximations for the level crossing rate (LCR) and the average fade duration (AFD) of the double Nakagamim random process. These results are then used to study the second order statistics of multiple input multiple output (MIMO) keyhole fading channels with space-time block coding. Numerical and computer simulation examples validate the accuracy of the presented mathematical analysis and show the tightness of the proposed approximations.

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