Search

Your search keyword '"Cabric, D."' showing total 43 results
Start Over Author "Cabric, D."
43 results on '"Cabric, D."'

1. Design and VLSI implementation for a WCDMA multipath searcher

Author

Grayver, E, Frigon, J F, Eltawil, A M, Tarighat, Alireza, Shoarinejad, K, Abbasfar, A, Cabric, D, and Daneshrad, B

Subjects
direct-sequence CDMA, interleaving, multipath, searcher, RAKE receiver, VLSI architecture, WCDMA
Abstract

The third generation (3G) of cellular communications standards is based on wideband CDMA. The wideband signal experiences frequency selective fading due to multipath propagation. To mitigate this effect, a RAKE receiver is typically used to coherently combine the signal energy received on different multipaths. An effective multipath searcher is, therefore, required to identify the delayed versions of the transmitted signal with low probability of false alarm and misdetection. This paper presents an efficient and novel WCDMA multipath searcher design and VLSI architecture that provides a good compromise between complexity, performance, and power consumption. Novel multipath searcher algorithms such as time domain interleaving and peak detection are also presented. The proposed searcher was implemented in 0.18 mu m CMOS technology and requires only 150 k gates for a total area of 1.5 mm(2) consuming 6.6 mw at 100 MHz. The functionality and performance of the searcher was verified under realistic conditions using a channel emulator.

Published
2005

2. Feasibility of Serving K Secondary Users in Underlay Cognitive Radio Networks using Massive MIMO

Author

Shailesh Chaudhari and Cabric, D.

Subjects
FOS: Computer and information sciences, Information Theory (cs.IT), Computer Science - Information Theory
Abstract

In this paper, we analyze the feasibility of serving K secondary users (SUs) on the downlink using a secondary base station (SBS), equipped with a large antenna array, in an underlay cognitive radio (CR) network. First, we formulate a feasibility problem in order to compute beamforming vectors and power allocations for K SUs with constraints on the maximum allowable interference to primary users (PUs), required minimum rate at SUs, and maximum transmit power from SBS. The problem formulation takes into account the imperfect channel state information between SUs and PUs. We propose a two step approach to solve the non-convex problem. In the first step, beamforming vectors are computed using one of the two alternative schemes: maximum eigenmode beamforming (MEB) or zero forcing beamforming (ZFB). We show that the power allocations can be computed by solving a linear programming feasibility problem. Further, we provide theoretical feasibility analysis of serving K SUs with equal power allocation by deriving the distributions of SINR at SUs and interference to PUs, thereby computing the probability of serving K SUs as a function of the constraints. The analytical and simulation results are presented to demonstrate the impact of constraints on the feasibility of serving K SUs in the CR network.

Published
2019

3. Energy Detection Based Spectrum Sensing Over k-μ and k-μ Extreme Fading Channels

Author

Sofotasios, PC, Rebeiz, E, Zhang, L, Tsiftsis, TA, Cabric, D, and Freear, S

Subjects
Computer Science::Information Theory
Abstract

Energy detection (ED) is a simple and popular method of spectrum sensing in cognitive radio systems. It is also widely known that the performance of sensing techniques is largely affected when users experience fading effects. This paper investigates the performance of an energy detector over generalized κ-μ and κ- μ extreme fading channels, which have been shown to provide remarkably accurate fading characterization. Novel analytic expressions are firstly derived for the corresponding average probability of detection for the case of single-user detection. These results are subsequently extended to the case of square-law selection (SLS) diversity and for collaborative detection scenarios. As expected, the performance of the detector is highly dependent upon the severity of fading since even small variations of the fading conditions affect significantly the value of the average probability of detection. Furthermore, the performance of the detector improves substantially as the number of branches or collaborating users increase in both severe and moderate fading conditions, whereas it is shown that the κ- μ extreme model is capable of accounting for fading variations even at low signal-to-noise values. The offered results are particularly useful in assessing the effect of fading in ED-based cognitive radio communication systems; therefore, they can be used in quantifying the associated tradeoffs between sensing performance and energy efficiency in cognitive radio networks.μ

Published
2013

4. Analysis framework for opportunistic spectrum OFDMA and its application to IEEE 802.22 standard

Author

Park, J., Pawelczak, P., Gronsund, P., Cabric, D., and Publica

Abstract

We present an analytical model that enables the evaluation of opportunistic spectrum orthogonal frequency division multiple-access (OS-OFDMA) networks using metrics such as blocking probability or, most importantly, throughput. The core feature of the model, based on a discrete-time Markov chain, is the consideration of different channel and subchannel allocation strategies under different primary and secondary user types, traffic, and priority levels. The analytical model also assesses the impact of different spectrum sensing strategies on the throughput of OS-OFDMA network. In addition, we consider studies of cochannel interference. The analysis is applied to the IEEE 802.22 standard to evaluate the impact of the two-stage spectrum sensing strategy and the varying temporal activity of wireless microphones on the system throughput. In addition to the analytical model, we present a set of comprehensive simulation results using NS-2 related to the delay performance of the OS-OFDMA system considered. Our study suggests that OS-OFDMA with subchannel notching and channel bonding could provide almost ten times higher throughput compared with a design without these options when the activity and density of wireless microphones are very high. Furthermore, we confirm that OS-OFDMA implementation without subchannel notching, which is used in the IEEE 802.22, can support the real-time and non-real-time quality of service classes, provided that the temporal activity of wireless microphones is moderate (with sparse wireless microphone distribution, with light urban population density and short duty cycles). Finally, the two-stage spectrum sensing option improves the OS-OFDMA throughput, provided that the length of spectrum sensing at every stage is optimized using our model.

Published
2012

5. Spatial filtering approach for dymamic range reduction in cognitive radios

Author

Heuvel, van den, J.H.C., Cabric, D, Heuvel, van den, J.H.C., and Cabric, D

Abstract

Cognitive radios (CRs) receive several users simultaneously. Therefore, the ADC of an CR requires a large dynamic range (DR) to guarantee adequate resolution per user. Thus far the ADC DR requirements have been prohibitive for the wide spread introduction of CR in the hand held market. The power consumption of an ADC reduces with an order of magnitude per decade. In the absence of disruptive new technologies, we expect this power trend to continue for the foreseeable future. Therefore, we propose an analog spatial filtering technique and present iterative methods to alleviate the ADC DR requirements and accelerate the overall power reduction of a CR. Simulation results indicate that for realistic scenarios the ADC resolution can be reduced by 4 bits per ADC, reducing the overall ADC power consumption with more than 90%.

Published
2010

28. Addressing feasibility of cognitive radios.

Author

Cabric, D.

Abstract

In this article we present a feasibility study of spectrum-sensing techniques using a research testbed platform for exploration and demonstration of cognitive radio systems. Our cognitive radio testbed is particularly suited for the development of physical and network layer functionalities and their experimental characterization in realistic wireless scenarios. Advanced testbed capabilities include real-time high-speed signal processing and protocol implementation, and support for multiple networks interaction and multiple antennas operation. This testbed is used for an experimental study of a set of prominent candidate techniques proposed in the literature for implementation of spectrum sensing functionality. We first consider three physical layer signal processing approaches based on energy, pilot, and feature detection. Our experimental results show that theoretical performance of these approaches for spectrum sensing cannot be achieved for the detection of very weak signals using a practical sensing receiver implementation. Also, we explain why these limitations exist by identifying sources of errors and provide basis for the design of robust spectrum sensing techniques. Next, we consider spectrum sensing techniques that use multiple measurements to improve sensing reliability. Our experimental study demonstrates practically achievable gains by exploiting multipath channel diversity through multiple antenna processing, and spatial diversity using user cooperation in a typical indoor environment. [ABSTRACT FROM PUBLISHER]

Published
2008
Full Text
View/download PDF

30. Full MIMO Spatial Filtering Approach for Dynamic Range Reduction in Wideband Cognitive Radios.

Author

van den Heuvel, J. H. C., Linnartz, J-P M. G., Baltus, P. G. M., and Cabric, D.

Subjects
BROADBAND communication systems, TELECOMMUNICATION systems, TRANSMITTERS (Communication), RADIOS, ALGORITHMS
Abstract

Wideband cognitive radios (CRs) receive signals from multiple transmitters simultaneously to increase spectrum utilization. Processing a wideband spectrum is challenging due to large dynamic range (DR) of the received signal and required high sampling speed of the ADC. The power consumption of high sampling speed/high-resolution ADCs have been prohibitive for handheld radios. However, in CR applications strong inband signals that pose large DR requirements can be filtered out, since CR needs to detect unused spectrum bands where no signal is present. Spatial domain filtering approaches through use of multiple antennas to reduce DR of the wideband signal are proposed. Algorithms and architectures are developed for vector beamforming (multiple antennas and a single ADC) and full multiple-input multiple-output (MIMO) (multiple antennas with an ADC per antenna) analog spatial filters for adaptive interference suppression. Simulation results indicate that for realistic indoor propagation environments the ADC resolution of an analog beamformer can be reduced by 4 bits when the receiver operates at 2 bits/s/Hz, reducing ADC power consumption by approximately 90%. Moreover, simulations indicate that full MIMO analog spatial filter can reduce ADC resolution with over 3 bits per ADC when the receiver operates at 5 bits/s/Hz, reducing ADC power consumption by approximately 85%. [ABSTRACT FROM PUBLISHER]

Published
2012
Full Text
View/download PDF

31. An Algorithm to Compensate the Effects of Spurious PLL Tones in Spectrum Sensing Architectures.

Author

Shang-Kee Ting, Cabric, D., and Sayed, A. H.

Subjects
*ALGORITHMS, *ALGEBRA, *ANALOG-to-digital converters, *DATA analysis, *DESCRIPTIVE statistics
Abstract

In a nonideal PLL circuit, leakage of the reference signal into the control line produces spurious tones. When the distorted PLL signal is used as a sampling clock to an analog-to-digital converter (ADC), it creates spurious sidebands in the sampled data as well. In spectrum sensing applications, the presence of spurious sidebands can lead to false detection of signals in otherwise empty channels. To remove the spurious sidebands, we first estimate the distortions to the sampled data and then compensate the data in the digital domain. To reduce hardware complexity and computation cost, we propose an algorithm that uses a Fourier Transform block (a typical component in spectrum sensing architectures) to estimate the sampling errors from the spurious sidebands. We also analyze the effects of the spurious sidebands on spectrum sensing. Computer simulations are included to show that the proposed solution can remove the spurious sidebands and improve the detection performance. [ABSTRACT FROM PUBLISHER]

Published
2012
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results