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Frequency Reconfigurable Antenna Array for MM-Wave 5G Mobile HandsetsOjaroudi Parchin, Naser, Al-Yasir, Yasir I.A., Abdulkhaleq, Ahmed M., Elfergani, Issa T., Rayit, A., Noras, James M., Rodriguez, Jonathan, Abd-Alhameed, Raed 20 September 2018 (has links)
Yes / This study proposes a compact design of frequency-reconfigurable
antenna array for fifth generation (5G) cellular networks. Eight compact discrete-
fed slot antennas are placed on the top portion of a mobile phone printedcircuit-
board (PCB) to form a beam-steerable array. The frequency response of
the antenna can be reconfigured to operate at either 28 GHz or 38 GHz, two of
the candidate frequency bands for millimeter-wave (MM-Wave) 5G communications.
The reconfigurability function of the proposed design can be achieved
by implementing and biasing a pair of diodes across each T-shaped slot antenna
element. Rogers RT 5880 with thickness of 0.508 mm and properties of ε = 2.2
and δ = 0.0009 has been used as the antenna substrate. The antenna element is
very compact in size with a good end-fire radiation pattern in the frequency
bands of interest. The proposed beam-steerable array provides very good 3D
coverage. The simulation results show that the proposed design provides some
good characteristics fitting the need of the 5G cellular communications. / Innovation programme under grant agreement H2020-MSCA-ITN-2016 SECRET-722424, UK Engineering and Physical Sciences Research Council (EPSRC) under grant EP/E022936/1
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Radio Resource Management for Cellular CDMA Systems Supporting Heterogeneous ServicesZhao, Dongmei January 2002 (has links)
A novel radio resource management (RRM) scheme, which jointly considers the system characteristics from the physical, link and network layers, is proposed for cellular code division multiple access (CDMA) systems. Specifically, the power distribution at the physical layer distributes only the necessary amount of power to each connection in order to achieve its required signal-to-interference-plus-noise ratio (SINR). The rate allocation guarantees the required delay/jitter for real-time traffic and the minimum transmission rate requirement for non-real-time traffic. Efficient rate allocation is achieved by making use of the randomness and burstiness of the packet generation process. At the link layer, a packet scheduling scheme is developed based on the information of power distribution and rate allocation from the physical layer to achieve guaranteed quality of service (QoS). It schedules the system resource on a time slot basis to efficiently utilize the system resource in every time slot and to improve the packet throughput for non-real-time traffic. A connection admission control (CAC) scheme based on the lower layer resource allocation information is proposed at the network layer. The CAC scheme also makes use of user mobility information to reduce handoff connection dropping probability (HCDP). Theoretical analysis of the grade of service (GOS) performance, in terms of new connection blocking probability (NCBP), HCDP, and resource utilization, is given. Numerical results show that the proposed RRM scheme can achieve both effective QoS guarantee and efficient resource utilization.
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Radio Resource Management for Cellular CDMA Systems Supporting Heterogeneous ServicesZhao, Dongmei January 2002 (has links)
A novel radio resource management (RRM) scheme, which jointly considers the system characteristics from the physical, link and network layers, is proposed for cellular code division multiple access (CDMA) systems. Specifically, the power distribution at the physical layer distributes only the necessary amount of power to each connection in order to achieve its required signal-to-interference-plus-noise ratio (SINR). The rate allocation guarantees the required delay/jitter for real-time traffic and the minimum transmission rate requirement for non-real-time traffic. Efficient rate allocation is achieved by making use of the randomness and burstiness of the packet generation process. At the link layer, a packet scheduling scheme is developed based on the information of power distribution and rate allocation from the physical layer to achieve guaranteed quality of service (QoS). It schedules the system resource on a time slot basis to efficiently utilize the system resource in every time slot and to improve the packet throughput for non-real-time traffic. A connection admission control (CAC) scheme based on the lower layer resource allocation information is proposed at the network layer. The CAC scheme also makes use of user mobility information to reduce handoff connection dropping probability (HCDP). Theoretical analysis of the grade of service (GOS) performance, in terms of new connection blocking probability (NCBP), HCDP, and resource utilization, is given. Numerical results show that the proposed RRM scheme can achieve both effective QoS guarantee and efficient resource utilization.
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Implementation of Wideband Multicarrier and Embedded GSMTsou, Thomas 26 October 2012 (has links)
The Global System for Mobile (GSM) cellular standard, having been in existence for over two decades, is the most widely deployed wireless technology in the world. While third generation networks and beyond, such as Universal Mobile Telecommunications System (UMTS) and Long Term Evolution (LTE), are undergoing extraordinary growth and driving a large share of current cellular development, technologies and deployments based on GSM are still dominant on a global scale and, like more recent standards, continue to evolve very rapidly.
The software-defined radio (SDR) base station is one technology that is driving rapid change in cellular infrastructure. While commercial vendors have now embraced SDR, there is another movement that has recently gained prominence. That movement is the convergence of open source software and hardware with cellular implementation. OpenBTS, a deployable implementation of the GSM radio air interface, and the Universal Software Radio Peripheral (USRP), a RF hardware platform, are two primary examples of such open source software and hardware products. OpenBTS and the USRP underlie three GSM features that are implemented and presented in this thesis.
This thesis describes the extension of the OpenBTS software-defined radio transceiver in the three critical areas of user capacity, transmit signal integrity, and the embedded small form factor. First, an optimized wideband multicarrier implementation is presented that substantially increases the capacity beyond that of a single carrier system. Second, the GSM modulator is examined in depth and extended to provide performance that exceeds standards compliance by a significant margin. Third, operation of the GSM transceiver on an E100 embedded platform with ARM and fixed point DSP processors will be explored, optimized, and tested. / Master of Science
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Passive Loop Filter Zoom Analog to Digital ConvertersJanuary 2018 (has links)
abstract: This dissertation proposes and presents two different passive sigma-delta
modulator zoom Analog to Digital Converter (ADC) architectures. The first ADC is fullydifferential, synthesizable zoom-ADC architecture with a passive loop filter for lowfrequency Built in Self-Test (BIST) applications. The detailed ADC architecture and a step
by step process designing the zoom-ADC along with a synthesis tool that can target various
design specifications are presented. The design flow does not rely on extensive knowledge
of an experienced ADC designer. Two example set of BIST ADCs have been synthesized
with different performance requirements in 65nm CMOS process. The first ADC achieves
90.4dB Signal to Noise Ratio (SNR) in 512µs measurement time and consumes 17µW
power. Another example achieves 78.2dB SNR in 31.25µs measurement time and
consumes 63µW power. The second ADC architecture is a multi-mode, dynamically
zooming passive sigma-delta modulator. The architecture is based on a 5b interpolating
flash ADC as the zooming unit, and a passive discrete time sigma delta modulator as the
fine conversion unit. The proposed ADC provides an Oversampling Ratio (OSR)-
independent, dynamic zooming technique, employing an interpolating zooming front-end.
The modulator covers between 0.1 MHz and 10 MHz signal bandwidth which makes it
suitable for cellular applications including 4G radio systems. By reconfiguring the OSR,
bias current, and component parameters, optimal power consumption can be achieved for
every mode. The ADC is implemented in 0.13 µm CMOS technology and it achieves an
SNDR of 82.2/77.1/74.2/68 dB for 0.1/1.92/5/10MHz bandwidth with 1.3/5.7/9.6/11.9mW
power consumption from a 1.2 V supply. / Dissertation/Thesis / Doctoral Dissertation Electrical Engineering 2018
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On Large Cooperative Wireless Network Modeling through a Stochastic Geometry Approach. / Modélisation de Réseaux sans Fils de Grandes Dimensions à l'aide de la Géométrie StochastiqueAltieri, Andres Oscar 07 October 2014 (has links)
L'objectif de cette thèse est d'étudier certains aspects des réseaux coopératifs sans fils à l'aide de la géométrie stochastique. Ça permets de considérer la distribution spatiale aléatoire des utilisateurs et les effets adverses de leur interaction, comme l’interférence.Nous étudions la performance, évaluée par la probabilité d'outage, atteignable dans un canal de relai full-duplex quand les nœuds opèrent dans un grand réseau sans fils où les émetteurs interférants sont modelés avec un processus ponctuel de Poisson homogène. Nous trouvons la probabilité d'outage des protocoles décodez-et-renvoyez (decode-and-forward, DF), et comprimez-et-renvoyez (compress-and-forward) et nous faisons une comparaison avec une transmission point à point et un protocole DF half-duplex. Ensuite, nous étudions une situation plus générale dans laquelle les émetteurs qui causent l'interférence peuvent aussi utiliser un relai ou faire des transmissions point à point. Nous étudions la relation entre les avantages de la cooperation et l'interférence qu'elle même génère.Dans la deuxième partie nous étudions la performance des stratégies de partage de vidéos par communications entre dispositifs mobiles (device-to-device, D2D) hors de la bande des communications cellulaires. Nous étudions la fraction des demandes de vidéos qui peuvent être satisfaites par D2D, c’est-à-dire, par le biais des émissions locales, plutôt que par la station de base. Pour étudier ce problème, nous introduisons un modèle de processus ponctuel, qui considère la stratégie de stockage dans les utilisateurs, le problème de comment lier les utilisateurs et les problèmes de la transmission et coordination entre les utilisateurs. / The main goal of this work is to study cooperative aspects of large wireless networks from the perspective of stochastic geometry. This allows the consideration of important effects such as the random spatial distribution of nodes, as well as the effects of interference and interference correlation at receivers, which are not possible when a single link is considered in isolation.First, some aspects of the performance of the relay channel in the context of a large wireless network are considered. Mainly, the performance, in terms of outage probability (OP), of a single full-duplex relay channel utilizing decode-and-forward (DF) or compress-and-forward, when the interference is generated by uniform spatial deployment of nodes, modeled as a Poisson point process. The OP performance of these two protocols is compared with a point-to-point transmission and with a half-duplex DF protocol. Afterwards, the case in which more than one transmitter in the network may use a relay is considered. The effects of cooperation versus interference are studied, when the users use either full-duplex DF, or point-to-point transmissions. In a second phase, this work explores the advantages that could be obtained through out-of-band device-to-device (D2D) video file exchanges in cellular networks. These advantages are measured in terms of the fraction of requests that can be served in a time-block through D2D, thus avoiding a downlink file transfer from the base station. For this, a stochastic geometry framework is introduced, in which the user file-caching policy, user pairing strategy, and link quality and scheduling issues are considered.
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