SwePub - search: WFRF:(Osseiran Afif)

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1.	Ben Slimane, Slimane, et al. (author) Relay Communication with Delay Diversity for Future Communication Systems 2006 In: 2006 IEEE 64TH VEHICULAR TECHNOLOGY CONFERENCE, VOLS 1-6. - New York : IEEE. - 1424400627 ; , s. 1-5 Conference paper (peer-reviewed)abstract In this paper we consider relay communication as a way of increasing the diversity gain in fading wireless environments. The idea is to combine relay communication with delay diversity where each relay introduces a certain time delay to the signal before forwarding. The result is an increased frequency selectivity in the relay channel which can be exploited at the receiver. The obtained results show that, for single carrier signals with frequency domain equalization, considerable performance gain is obtained.
2.	Logothetis, Andrew, et al. (author) Performance of Speech Services in WCDMA using Fixed-Beams and Transmit Diversity Systems 2005 In: VTC2005-SPRING: 2005 IEEE 61ST VEHICULAR TECHNOLOGY CONFERENCE, VOLS 1-5, PROCEEDINGS. - : IEEE. - 0780388879 ; , s. 2890-2894 Conference paper (peer-reviewed)abstract The system capacity of speech users in WCDMA system is investigated using a number of different downlink transmit modes. A single antenna sectorized system, a two fixed-beam antenna array, a closed-loop (mode I) and an open-loop space time transmit diversity methods are compared in a dynamic radio network simulator. Frequency selective and flat fading channels are considered. The results show that the diversity gain in flat fading channels is substantial. In frequency selective fading, the benefits of fixed-beam systems are encouraging, whereas the performance of transmit diversity methods (especially the open-loop scheme) are rather unsatisfactory.
3.	Logothetis, Andrew, et al. (author) Single Carrier Frequency Domain Equalization on a Real-Time DSP-Based MIMO Test-Bed 2005 Conference paper (peer-reviewed)abstract In this paper, single carrier frequency domain equalization with space time transmit diversity was implemented and evaluated in real-time using a DSP-based wireless MIMO test-bed. The implemented schemes supported a large set of modulations, from BPSK up to QAM64. Zero padding is introduced to mitigate inter-block interference. Robust time and frequency synchronization together with channel estimation based on Kalman filtering is used to address the adverse intersymbol interference and the severe carrier frequency offset due to hardware impairments.
4.	Logothetis, Andrew, et al. (author) SINR Estimation and Orthogonality Factor Calculation of DS-CDMA Signals in MIMO Channels Employing Linear Transceiver Filters 2007 In: Wireless Communications & Mobile Computing. - : John Wiley & Sons, Ltd.. - 1530-8669 .- 1530-8677. ; 7:1, s. 103-112 Journal article (peer-reviewed)abstract A discrete-time model of DS-CDMA signaling using multiple transmit and receive antennas employing linear transceiver filters is derived. For each link, connecting a base-station to a wireless mobile user, the downlink signal to interference plus noise ratio (SINR) after despreading is derived analytically, and as a by-product an exact closed-form solution of the orthogonality factor is obtained. The orthogonality factor is derived for any linear receiver structure that is implemented by a bank of correlators and for any linear combining techniques (such as MRC and MMSE), and for any number of transmit and/or receive antennas that utilize transmit (pre-RAKE) and receive (post-RAKE) filtering. The MIMO DS-CDMA model is derived using a filter representation, and is extended to a vector/matrix formulation that permits a systematic and efficient way of computing the SINR in a radio network simulator.
5.	Manssour, Jawad, et al. (author) A Unicast Retransmission Scheme Based on Network Coding 2012 In: IEEE Transactions on Vehicular Technology. - : IEEE. - 0018-9545 .- 1939-9359. ; 61:2, s. 871-876 Journal article (peer-reviewed)abstract A novel scheme for data retransmission for wireless unicast communication is presented. The scheme is based on a transmitter and receiver structure and bit-level data processing using a combination of channel coding and network coding that allows retransmissions to contain the previously incorrectly received information and new information, both destined to the same receiver. Results show that, for the chosen forward error codes, up to 68.75% retransmission throughput gains are achieved compared to HARQ with Chase combining.
6.	Manssour, Jawad, et al. (author) High-Rate Redundant Space-Time Coding 2010 In: Journal of Electrical and Computer Engineering. - : Hindawi Limited. - 2090-0147 .- 2090-0155. ; 2010, s. 324138- Journal article (peer-reviewed)abstract We present a new space-time encoderbased on packet-level redundancy which can increase the space-time encoder rate beyond unity without compromising diversitygains. A complementary low-complexity decoding algorithmbased on maximum ratio combining and successive interferencecancelation is further proposed. A major merit of the decodingalgorithm is that it allows to adaptively tradeoff betweendiversity and multiplexing gains based on the estimated channelparameters at the receiver without requiring any channel stateinformation at the transmitter. System level simulation resultsgive insight into the advantages of the proposed scheme whencompared to its Alamouti and MIMO multiplexing based onsingle value decomposition counterparts.
7.	Manssour, Jawad, et al. (author) Opportunistic relay selection for wireless network coding 2009 In: 2009 IEEE 9TH MALAYSIA INTERNATIONAL CONFERENCE ON COMMUNICATIONS (MICC). ; , s. 102-106 Conference paper (peer-reviewed)
8.	Manssour, Jawad, et al. (author) Time Allocation in wireless network coding 2009 In: The 12th International Symposium on Wireless Personal Multimedia Communications. Conference paper (peer-reviewed)
9.	Manssour, Jawad, et al. (author) Wireless network coding in multi-cell networks : Analysis and Performance 2008 Conference paper (peer-reviewed)abstract Network coding has recently attracted a lot of interest from the research community, mainly due to its simplicity of application and the large number of applications it can be suited for. Research in network coding started on wired networks, but the researchers soon came to realize that the inherent properties of the wireless medium render it a fertile ground for the application of network coding, and the resulting efforts mainly targeted bidirectional traffic scenarios. In this work, we focus on practical implementation issues for network coding when applied to uplink cellular traffic. We provide our own relaying scheme based on decode-and-forward relays and network coding, with a specially designed method of decoding at the receiver. We complement this method with user grouping in order to make better use of the application of network coding. We measure the SINR and capacity performances of our proposed scheme and compare them to the classical decode-and-forward algorithm in a system level simulator. We show that user grouping should complement a network coding solution in order to translate the decrease in the number of transmissions offered by network coding into capacity gains.
10.	Mobile and Wireless Communications for IMT-Advanced and Beyond 2011 Editorial collection (peer-reviewed)abstract A timely addition to the understanding of IMT-Advanced, this book places particular emphasis on the new areas which IMT-Advanced technologies rely on compared with their predecessors. These latest areas include Radio Resource Management, Carrier Aggregation, improved MIMO support and Relaying. Each technique is thoroughly described and illustrated before being surveyed in context of the LTE-Advanced standards. The book also presents state-of-the-art information on the different aspects of the work of standardization bodies (such as 3GPP and IEEE), making global links between them. Explores the latest research innovations to assess the future of the LTE standard. Covers the latest research techniques for beyond IMT-Advanced such as Coordinated multi-point systems (CoMP), Network Coding, Device-to-Device and Spectrum Sharing. Contains key information for researchers from academia and industry, engineers, regulators and decision makers working on LTE-Advanced and beyond.
11.	Mohr, Werner, et al. (author) Radio Technologies and Concepts for IMT-Advanced. Wiley Nov. 2009. 2009 Book (other academic/artistic)
12.	Osseiran, Afif, et al. (author) A Method for Designing Fixed Multi-Beam Antenna Arrays in WCDMA Systems 2006 In: IEEE Antennas and Wireless Propagation Letters. - : IEEE. - 1536-1225 .- 1548-5757. ; 5:1, s. 41-44 Journal article (peer-reviewed)abstract In this paper, Simulated Annealing is used for designing a fixed multi-beam antenna array (AA) in a multi-user radio WCDMA system. The method can be used dynamically in a real system and/or in a radio planning tool. The proposed method is applied on a linear array by designing the Antenna Element (AE) pattern, the number of fixed beams, the AE spacing, and the AA transmit weights. The proposed method leads to a substantial BS power reduction which can be used to increase the system capacity or data throughput in a WCDMA system.
13.	Osseiran, Afif, et al. (author) A MIMO framework for 4G systems : WINNER concept and results 2007 In: 2007 IEEE 8th Workshop on Signal Processing Advances in Wireless Communications. - : IEEE. - 9781424409549 ; , s. 798-802 Conference paper (peer-reviewed)abstract In this paper, the MIMO framework within WINNER for fourth generation radio systems is further developed and assessed for various deployment scenarios. The emphasis is on radio network system aspects of multi-antenna techniques where preferred configurations for three basic deployment scenarios are given. In the wide area scenario which aims to provide ubiquitous coverage for rural, suburban and urban areas, the scheme selection depends on the user density of spatially separated users. It ranges from grid of fixed beams (GoB) (TDMA based) in case of few users to SDMA with a fixed linear precoding codebook, and finally to adaptive beams with SDMA for highly dense system. In the metropolitan area scenario which is targeting system deployments in large urban environments, multi-user (MU) MIMO precoding performs very well for slow moving users. For higher velocities, per antenna rate control (PARC) or adaptive linear dispersion codes (LDCs) are better choices. In the local area scenario which is characterized by isolated sites, the combination of SDMA and spatial multiplexing achieved by MU-MIMO precoding provides high spectral efficiency.
14.	Osseiran, Afif, 1972- (author) Advanced Antennas in Wireless Communications : co-located & distributed 2006 Doctoral thesis (other academic/artistic)abstract In a wireless radio network system, with an evolving standard, there is a need to increase system capacity due to the increase in the traffic demands, the higher data rate usage, and the need to further extend the coverage of the system. One possible solution is to use multiple antennas (co-located or distributed) for the radio links. The aim of this thesis is to estimate the capacity gain for these advanced antenna scenarios in comparison to the ones in current use (e.g. single antenna in a 3-sector site) with special emphasis on transmit diversity and beamforming techniques. The quantification of such gain is mainly performed, evaluated and analyzed in dynamic system simulators with an accurate interference modeling. A generalized Signal to Interference Noise Ratio (SINR) estimation for a MIMO DS-CDMA system is derived, and as a by-product a closed-form solution of the orthogonality factor is obtained. Moreover the effectiveness of an antenna system is evaluated in a MIMO-test bed. Transmit diversity (TXDiv) is evaluated in WCDMA systems for flat fading (i.e. Pedestrian A (PedA)) and frequency selective channels (i.e. Typical Urban (TU)). While in flat fading channels, TXDiv schemes such as Space Time Transmit Diversity (STTD) and Closed Loop Mode 1 (CL1) offer a substantial system capacity gain, the gain is negligible in frequency selective channels. In HSDPA systems, TXDiv offers negligible gain in flat fading channels and causes a significant loss in frequency selective channels. The loss is mainly due to random spatial interference patterns (the so called Flashlight Effect), that are present in the HSDPA system. A simple scheme that mitigates this phenomena is presented. The scheme yields a 70% gain for CL1 in a PedA channel, while 10% gain is observed in the TU channel. The introduction of beamforming in WCDMA systems leads to a substantial system capacity and coverage gain. Three different implementations are evaluated and analyzed: Higher Order Sectorization (HOS), Fixed Beams (FB) with S-CPICH as a phase reference and finally FB as P-CPICH as a phase reference. Further, the impact of angular spread, the interaction and impact of radio resource management as power tuning of the common channel, scrambling code allocation technique, admission control, handovers and various antenna configurations are analyzed. The 12-sector sites yield the best system capacity gain in comparison to 3-sector sites equipped with a single antenna, slightly more than a 3-sector sites equipped with 4 FB each. In HSDPA systems, FB offers an impressive capacity gain, up to 200% for a 4 FB system. Capacity estimations with a dynamic system simulator give a clear indication about the gain of the simulated system, but the robustness of any method have to be verified through test-beds. STTD with receive diversity is implemented and tested in a real-time DSP MIMO test-bed for a single carrier frequency domain equalization system. A new pilot structure for joint Carrier Frequency Offset (CFO) and channel estimation is proposed and evaluated to address the inter-symbol interference and the severe CFO due to hardware impairments. The new pilot scheme results in significant reduction of the required overhead signalling compared to previous schemes. Instead of having antennas co-located and connected to the same radio unit (i.e. BS or UE), antennas can be distributed but having the potential to cooperate together. Furthermore, the system provides a macro-diversity gain and also relaxes the hardware complexity at the BS and/or UE. Two novel methods that provide frequency and spatial diversity are proposed. The first one called Relay Cyclic Delay Diversity (RCDD), provides frequency and spatial diversity for a multihop system while requiring a lower overhead than the methods proposed in the literature. RCDD yields a high SINR gain which translates into a substantial cell throughput gain in comparison to a single hop system. The second method called two dimensional cyclic prefix (2D-CP), introduces artificial time diversity and requires only a single transmission phase for each direction in a cooperative relaying wireless communication system. Besides not requiring an antenna specific pilots, the 2D-CP provides a substantial data rate increase.
15.	Osseiran, Afif, et al. (author) Advances in wireless network coding for IMT-advanced & beyond 2011 In: 2011 2nd International Conference on Wireless Communication, Vehicular Technology, Information Theory and Aerospace and Electronic Systems Technology, Wireless VITAE 2011. Conference paper (peer-reviewed)abstract In a classical network, data streams originating from a source and intended to a desired destination are routed through intermediate nodes before reaching their final destination. By contrast, Network Coding (NC) manipulates at an intermediate node those data streams by combining the data from the streams before forwarding it to the destination. This paper describes the advances of NC in wireless communication for IMT-Advanced and beyond. A short overview of NC in wireless communications is given first. Afterward, the application of NC to broadcasting is described. Thereafter, NC methods in uplink wireless communications, such as User Grouping (UG) and Relay Selection (RS) are described. Further, the advantage of non-binary over binary network NC is shown in a multi-user multi-relay scenario. Finally the performance of NC is analyzed. In particular, in the uplink Multiple Access Relay Channel (MARC) scenario, the joint UG and RS methods lift the system capacity by 70%. The non-binary NC improves the SNR up to 4 dB. Finally the efficient broadcast method yields up to 22% overhead reduction compared to ARQ.
16.	Osseiran, Afif, et al. (author) Capacity Evaluation of Fixed Beams in a WCDMA System using channel estimation based on P-CPICH 2006 In: IEEE International Conference on Communications. - New York : IEEE. - 1550-3607 .- 1938-1883. - 1424403553 ; 11, s. 4900-4905 Journal article (peer-reviewed)abstract A fixed multi-beam system that uses the Primary- Common PIlot CHannel (P-CPICH) as a phase reference for channel estimation and demodulation in WCDMA is evaluated in a dynamic radio network simulator. The impact of the angular spread on the downlink system performance is analyzed. Furthermore, a scrambling code allocation strategy and an adaptive load-dependent power tuning algorithm for the P-CPICH are proposed. Extensive simulation studies are carried out to evaluate the capacity gains of 3 sector sites where each site is equipped with 1, 2 or 4 beams in a typical urban radio channel. Moreover an alternative antenna configuration consisting of 6 sector sites where each sector is equipped with 2 beams is evaluated.
17.	Osseiran, Afif, et al. (author) CELTIC CP5-026 WINNER+, D2.1 Preliminary WINNER+ System Concept 2009 Reports (other academic/artistic)abstract This deliverable provides an overview of the WINNER+ system concept which encompasses the following innovations areas for IMT-Advanced technologies: advanced RRM, spectrum technologies, advanced co-located antennas and coordinated multipoint systems. The concepts of each of these areas are described thoroughly. These concepts are composed of techniques and methods that were identified out of a wider set.
18.	Osseiran, Afif, et al. (author) CELTIC CP5-026 WINNER+, D2.2 Enabling Techniques for LTE-A and beyond 2010 Reports (other academic/artistic)abstract This deliverable summarizes the most promising enabling techniques for LTE-A and beyond in seven major areas. These areas are: Carrier Aggregation, Coordinated Multipoint Systems, Femtocells, Network Coding, MIMO, Quality of Service, Resource allocation, and Relaying. A description of the most relevant scenarios where the techniques can be used is given. Further the end-2-end performance approach is presented. Finally future research directions of enabling techniques beyond LTE-A are given.
19.	Osseiran, Afif, et al. (author) Closed Loop Transmit Diversity in WCDMA HS-DSCH 2005 In: VTC2005-Spring. - 0780388879 ; , s. 349-353 Conference paper (peer-reviewed)abstract The paper summarizes the system performance of the high speed downlink shared channel (HS-DSCH) in WCDMA using closed loop mode 1 transmit diversity. The results show that, scheduling one user at a time in the Pedestrian A channel model, transmit diversity yields similar capacity gains as the sector antenna. On the other hand, in highly dispersive channels, a loss in the system throughput relative to the sector antenna, is observed. This loss is mainly due to random spatial interference patterns (the so called flashlight effect), that are present in the HS-DSCH setting when a single user is scheduled with the maximum available resources (power/codes) at each time instant. In order to mitigate the flashlight effect, a simple scheme is proposed in which multiple users are simultaneously scheduled using different scrambling codes. Scheduling multiple users makes the interference almost spatially white, resulting in a system throughput gain.
20.	Osseiran, Afif, et al. (author) Distributed Relay Diversity Systems for OFDM-Based Networks 2008 In: International Journal of Communications, Network and System Sciences. - : Scientific Research Publishing Inc.. - 1913-3715 .- 1913-3723. ; 1:3, s. 215-227 Journal article (peer-reviewed)abstract In this paper, distributed relay diversity systems are analyzed, modeled and evaluated in an Orthogonal Frequency Division Multiplexing (OFDM) based networks. The investigated distributed relay diversity schemes extend the ideas of a single hop transmit antenna schemes such as Cyclic Delay Diversity (CDD), Space Time Transmit Diversity (STTD), transmit Coherent Combining (CC) and Selection Diversity (SD) to distributed diversity systems. In contrast to the classical single hop system, the antennas in the distributed systems belongs to distributed relays instead of being co-located at the transmitter. The distributed relay diversity methods considered in this paper: Relay CDD (RCDD), Relay Alamouti (i.e.STTD), Relay CC (RCC) and Relay SD (RSD) are compared to the traditional 1-hop system. Analytical expressions for the received Signal to Interference Noise Ratio (SINR) are derived and used in a dynamic multi-cell multi-user simulator. Results show considerable SINR gains for both Round Robin and Max-SINR schedulers. The SINR gains translate into substantial cell throughput gains, up to 200%, compared to 1-hop systems. Despite its low complexity, the RCDD scheme has similar performance to that of other more sophisticated 2-hop schemes such as Relay Alamouti and Relay Coherent Combining. Marginally better results are observed for the Relay Selection Diversity scheme.
21.	Osseiran, Afif, et al. (author) Future Directions 2011 In: Mobile and Wireless Communications for IMT-Advanced and Beyond. - Chichester : John Wiley & Sons. - 9781119993216 ; , s. 251-257 Book chapter (other academic/artistic)
22.	Osseiran, Afif, et al. (author) Impact of Angular Spread on Higher Order Sectorization in WCDMA Systems 2005 In: IEEE International Symposium on Personal, Indoor and Mobile Radio Communications, PIMRC. - : IEEE. - 9783800729098 ; , s. 301-305 Conference paper (peer-reviewed)abstract This paper analyzes higher order sectorization (HOS) in WCDMA. Sectorization is achieved by splitting the sites into smaller sectors using highly directional antennas. The impact of angular spread on the system throughput is evaluated using a dynamic radio network simulator. Increasing the number of sectors per site from 3 to 6 and 12 in a typical urban radio channel yields a downlink system capacity gain of 80% and 200% respectively. Simulations have shown that the increase in the ratio of users in soft and softer handover per sector is negligible and the impact of angular spread on the system performance of a 6 and 12 sector sites is minor and negligible for the 3 sector sites.
23.	Osseiran, Afif, et al. (author) Introduction 2011 In: Mobile and Wireless Communications for IMT-Advanced and Beyond. - : Wiley. ; , s. 1-9 Book chapter (peer-reviewed)
24.	Osseiran, Afif, et al. (author) IoT and machine-type communication 2019 In: IEEE Communications Standards Magazine. - : Institute of Electrical and Electronics Engineers (IEEE). - 2471-2825. ; 3:2, s. 44-44 Journal article (peer-reviewed)abstract The two articles in this special section examine the Internet of Things (IoT) and Machine-type communications. IoT is about connecting devices and creating related applications to suit a business and economic need. One of its value propositions is automation. As the industry and academia understand the “plumbing” part of IoT and refine emerging business models such as ones based on software as a service (SaaS) and platform as a service (PaaS), the new developments increasingly focus on: Cross-domain interoperability; data analytics and the emergence of data marketplaces for IoT; and dealing with new application domains in a cost optimized manner, in particular ones that require low latency, high resiliency and availability, and so on.
25.	Osseiran, Afif, et al. (author) Mobile and wireless communications for IMT-A and beyond 2011 Book (other academic/artistic)
26.	Osseiran, Afif, et al. (author) Network Coding in Wireless Communications 2011 In: Mobile and Wireless Communications for IMT-Advanced and Beyond. - : John Wiley & Sons. - 9781119993216 ; , s. 181-205 Book chapter (peer-reviewed)abstract This chapter deals with Network Coding (NC) in general and with its application to wireless communication in particular. A short overview of Network Coding in wired and wireless communications is given in section 8.1. Section 8.2, NC describes methods in uplink wireless communications. In section 8.3 the advantage of nonbinary network codes over binary network codes is shown in a multiuser co-operative communication and multirelay scenarios. The application of Network Coding (NC) to broadcast scenarios is then described. Finally, NC trends in wireless communications are given in section 8.5.
27.	Osseiran, Afif, et al. (author) Pilot Design Criteria for Single Carrier Frequency Domain Equalization on a Real-Time DSP-Based MIMO Test-Bed 2006 In: 2006 IEEE 64TH VEHICULAR TECHNOLOGY CONFERENCE, VOLS 1-6. - : IEEE. - 9781424400621 ; , s. 261-264 Conference paper (peer-reviewed)abstract In this paper, single carrier frequency domain equalization with space time transmit diversity was implemented and evaluated in real-time using a DSP-based wireless MIMO test-bed. A new pilot structure for joint carrier frequency offset (CFO) and channel estimation is proposed and evaluated, to address the adverse inter-symbol interference and the severe CFO due to hardware impairments. The channel estimation method is done in the frequency domain using a non-parametric interpolation method. The new pilot scheme results in significant reduction of the required overhead signalling compared to previous schemes.
28.	Osseiran, Afif, et al. (author) Relay Cyclic Delay Diversity : Modeling & System Performance 2007 In: ICSPC. - 9781424412358 ; , s. 25-28 Conference paper (peer-reviewed)abstract A cooperative communication scheme referred to as relay cyclic delay diversity (RCDD) is presented in this paper. The scheme is based on a set of distributed relay nodes (RNs) with each node associated with a certain cyclic shift in order to generate artificially multi-path diversity and equivalently frequency diversity. RCDD is an open loop scheme and the user terminal (UT) only needs to estimate an effective channel from all the RNs and not the channel from each RN. The effective channel induced by RCDD is frequency selective and can be exploited by a maximum signal to interference noise ratio (SINR) scheduler which improves substantially the system throughput. The SINR of the RCDD is derived analytically and the performance of the method is evaluated in a dynamic multi-cell multi-user simulator. The results show considerable SINR gains that translate into substantial cell throughput gains compared to 1-hop systems.
29.	Osseiran, Afif, et al. (author) Relaying for Imt-advanced 2011 In: Mobile and Wireless Communications for IMT-Advanced and Beyond. - Chichester : John Wiley & Sons. - 9781119993216 ; , s. 157-179 Book chapter (other academic/artistic)
30.	Osseiran, Afif, et al. (author) Scenarios for 5G mobile and wireless communications : The vision of the METIS project 2014 In: IEEE Communications Magazine. - 0163-6804 .- 1558-1896. ; 52:5, s. 26-35 Journal article (peer-reviewed)abstract METIS is the EU flagship 5G project with the objective of laying the foundation for 5G systems and building consensus prior to standardization. The METIS overall approach toward 5G builds on the evolution of existing technologies complemented by new radio concepts that are designed to meet the new and challenging requirements of use cases today¿s radio access networks cannot support. The integration of these new radio concepts, such as massive MIMO, ultra dense networks, moving networks, and device-to-device, ultra reliable, and massive machine communications, will allow 5G to support the expected increase in mobile data volume while broadening the range of application domains that mobile communications can support beyond 2020. In this article, we describe the scenarios identified for the purpose of driving the 5G research direction. Furthermore, we give initial directions for the technology components (e.g., link level components, multinode/multiantenna, multi-RAT, and multi-layer networks and spectrum handling) that will allow the fulfillment of the requirements of the identified 5G scenarios.
31.	Osseiran, Afif, et al. (author) Smart antennas in a WCDMA Radio Network System Revisited: Modeling and Evaluations 2006 In: IEEE Transactions on Antennas and Propagation. - : IEEE. - 0018-926X .- 1558-2221. ; 54:11, s. 3302-3316 Journal article (peer-reviewed)abstract A comprehensive study is given of smart antennas for wide-band code-division multiple access (WCDMA). It analyzes, evaluates, and presents methods and ideas for the deployment of smart antennas in WCDMA third-generation wireless systems and for future generations. Three major implementations are evaluated and analyzed in a dynamic system simulator: higher order sectorization (HOS), fixed beams (FBs) with secondary common pilot channel (S-CPICH), and FBs with primary common pilot channel (P-CPICH) as a phase reference. The system modeling integrates antenna and wave propagation modeling to evaluate and design smart antennas in wireless communications. Furthermore, this paper analyzes the impact of angular spread of various antenna configurations, the interaction and impact of radio resource management as power tuning of the common channel, scrambling code (SCO) allocation technique, and soft and softer handover algorithm. Moreover, an SCO allocation strategy and an adaptive load-dependent power-tuning algorithm of the P-CPICH are proposed. Furthermore, a signal-to-(interference plus noise) ratio derivation is given. Extensive simulation studies are carried out to evaluate the capacity gains of HOS and FB. The 12-sector sites yield the best system downlink capacity gain compared to three-sector sites equipped with a single antenna, slightly more than three-sector sites equipped with four FBs each. The six-sector sites equipped with two FBs each reduce the gap between HOS and FB systems to 10%.
32.	Osseiran, Afif, et al. (author) System Performance of Fixed Beams with S-CPICH as a Phase Reference in WCDMA 2006 In: 2006 IEEE 63RD VEHICULAR TECHNOLOGY CONFERENCE, VOLS 1-6. - : IEEE. - 0780393929 - 9780780393929 ; , s. 2962-2966 Conference paper (peer-reviewed)abstract A Fixed Beam (FB) system that uses a beam specific Secondary-Common PIlot CHannel (S-CPICH) as a phase reference for channel estimation and demodulation in WCDMA is evaluated in a dynamic radio network simulator. The impact of the angular spread on the DownLink (DL) system performance is analyzed. Furthermore, various scrambling code allocation strategies and an adaptive load-dependent power tuning algorithm of the common channels are proposed and evaluated. Extensive simulation results have verified that increasing the number of FB from 1 to 2 or 4 beams per sector in a typical urban radio channel yields significant DL capacity gains.
33.	Osseiran, Afif, et al. (author) System Performance of Transmit Diversity Methods and a Two Fixed-Beam System in WCDMA 2004 In: Wireless personal communications. - Hingham, MA, USA : Kluwer Academic Publishers. - 0929-6212 .- 1572-834X. ; 31:1-2, s. 33-50 Journal article (peer-reviewed)abstract Downlink transmit diversity modes for WCDMA together with a two fixed-beam antenna array system are compared relative to the single antenna sectorized system in a radio network simulator. The transmit diversity methods investigated are: space-time transmit diversity and closed-loop mode I transmit diversity. Frequency selective (COST 259) and flat fading channels are considered and their impact to speech-only and data-only services is evaluated. A third service, which highlights the system performance of the various advanced antennas, is also investigated. The results in this investigation point out that the diversity gain in flat fading channels is substantial. In frequency-selective fading, the benefits of fixed beam systems is encouraging, whereas transmit diversity methods (especially Space-Time Transmit Diversity) is unsatisfactory.
34.	Osseiran, Afif, et al. (author) The Road to IMT-Advanced Communication Systems: State-of-the-Art and Innovation Areas Addressed by the WINNER+ Project 2009 In: IEEE Communications Magazine. - 0163-6804 .- 1558-1896. ; 47:6, s. 38-47 Journal article (peer-reviewed)abstract The WINNER project phases I and II contributed to the development, integration and assessment of new mobile networks techniques from 2004 to 2007. Some of these techniques are now in the 3GPP LTE and IEEE 802.16 (WiMAX) standards, while others are under consideration for LTE-Advanced and 802.16m. The WINNER+ project continues this forward-looking work for IMT-Advanced technologies and their evolutions, with a particular focus on 3GPP LTE-Advanced. This article provides an overview of the WINNER system concept and several of its key innovative components.
35.	Svensson, Tommy, 1970, et al. (author) CELTIC CP5-026 WINNER+, D1.9 Final Innovation Report 2010 Reports (other academic/artistic)abstract This deliverable is the final innovation report from the innovation workpackage in WINNER+. The document describes the latest innovations and their assessment as well as summarizes the innovations developed in the work package during the project. We analyze the suitability of these innovations as technology enablers for improving current systems, in particular IMT Advanced and beyond.
36.	Tölli, Antti, et al. (author) Multiuser MIMO Systems 2011 In: Mobile and Wireless Communications for IMT-Advanced and Beyond. - : John Wiley & Sons. - 9781119993216 - 9781119976431 ; , s. 89-120 Book chapter (peer-reviewed)abstract In Multiple Input Multiple Output (MIMO) communications, multiple antenna elements are employed both in the transmitter and the receiver, in order to obtain increased data rates or improved reliability compared to single-antenna transmission. In cellular systems, the Base Stations (BS) may operate in Single User (SU)-MIMO mode, i.e. to employ point-to-point transmission of data just for one multi-antenna User Equipment at a time. Alternatively, the BS can perform Multiuser (MU)-MIMO transmission, i.e. spatially multiplex data streams intended for different UEs that may be equipped with arbitrary numbers of antenna elements. The use of MU-MIMO mode offers potential system capacity gains especially when the BS employs a large antenna array. This chapter discusses various aspects of MIMO communications, with a special focus on the downlink direction of cellular systems. First, an overview of the fundamentals and existing techniques is given. Then, the MIMO related standards and standardization activities are described. Finally, some recent advances concerning MU-MIMO communications are addressed.
37.	Wijting, Carl, et al. (author) WINNER II System Concept: Advanced Radio Technologies for Future Wireless Systems 2008 In: ICT Mobile Summit 2008, Stockholm, Sweden, June 2008. Conference paper (peer-reviewed)abstract WINNER has been an ambitious research project aiming at identification and assessment of key technologies for Beyond 3G mobile systems. The goal of the WINNER mobile access network is a system that is highly flexible and efficient and can provide a wide range of services to a multitude of users in many different environments. This paper provides a concise overview of the WINNER system concept and presents the main technical innovation areas addressed by the project.

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