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11	[en] COVERAGE CALCULATIONS AND PLANNING OF CDMA SYSTEM / [pt] CÁLCULO DE COBERTURA E PLANEJAMENTO DE SISTEMAS CDMA LEANDRO RODRIGUES COELHO 14 December 2005 (has links) [pt] A predição da área de cobertura de um sistema celular CDMA é um dos pontos mais importantes no planejamento deste tipo de sistema. Esta dissertação visa englobar todos os aspectos relevantes para o planejamento e dimensionamento de sistemas CDMA, desenvolvendo uma metodologia de cálculo de cobertura que simultaneamente atenda aos modelos de propagação existentes e as condições de interferência. A metodologia desenvolvida foi implementada no programa denominado NetDimension, que está sendo desenvolvido pelo Centro de Estudos em Telecomunicações (CETUC) da Pontifícia Universidade Católica do Rio de Janeiro (PUC/Rio) no âmbito do programa de Softex. Na última parte da dissertação são apresentados alguns exemplos de cálculos de cobertura que foram realizados através do NetDimension, cujos resultados são expressos graficamente, facilitando a análise pelo usuário. / [en] CDMA cellular system coverage prediction is one of the most important issues in the planning of this type of system. This dissertation intends to discuss all the important aspects fo the planning and desing of CDMA systems, developing a coverage prediction methodology that simultaneously comply with the existent propagation models and the interference conditions. The developed methodology was implemented in the program named NetDimension, that is being developed by the Telecommunications Studies Center (CETUC) of the Rio de Janeiro Catholic University (PUC/RJ). In the last part of the dissertation some examples of coverage calculations are presented, which were performed using the software NetDimension. The results are expressed graphically, facilitating the analysis by the user. [pt] CDMA [pt] SISTEMAS RADIO [pt] SISTEMAS CELULARES [en] CDMA [en] RADIO SYSTEMS [en] CELLULAR SYSTEMS
12	Interference Modeling in Wireless Networks Shabbir Ali, Mohd January 2014 (has links) (PDF) Cognitive radio (CR) networks and heterogeneous cellular networks are promising approaches to satisfy the demand for higher data rates and better connectivity. A CR network increases the utilization of the radio spectrum by opportunistically using it. Heterogeneous networks provide high data rates and improved connectivity by spatially reusing the spectrum and by bringing the network closer to the user. Interference presents a critical challenge for reliable communication in these networks. Accurately modeling it is essential in ensuring a successful design and deployment of these networks. We first propose modeling the aggregate interference power at a primary receiver (PU-Rx) caused from transmissions by randomly located cognitive users (CUs) in a CR network as a shifted lognormal random process. Its parameters are determined using a moment matching method. Extensive benchmarking shows that the proposed model is more accurate than the lognormal and Gaussian process models considered in the literature, even for a relatively dense deployment of CUs. It also compares favorably with the asymptotically exact stable and symmetric truncated stable distribution models, except at high CU densities. Our model accounts for the effect of imperfect spectrum sensing, interweave and underlay modes of CR operation, and path-loss, time-correlated shad-owing and fading of the various links in the network. It leads to new expressions for the probability distribution function, level crossing rate (LCR), and average exceedance duration (AED). The impact of cooperative spectrum sensing is also characterized. We also apply and validate the proposed model by using it to redesign the primary exclusive zone to account for the time-varying nature of interference. Next we model the uplink inter-cell aggregate interference power in homogeneous and heterogeneous cellular systems as a simpler lognormal random variable. We develop a new moment generating function (MGF) matching method to determine the lognormal’s parameters. Our model accounts for the transmit power control, peak transmit power constraint, small scale fading and large scale shadowing, and randomness in the number of interfering mobile stations and their locations. In heterogeneous net-works, the random nature of the number and locations of low power base stations is also accounted for. The accuracy of the proposed model is verified for both small and large values of interference. While not perfect, it is more accurate than the conventional Gaussian and moment-matching-based lognormal and Gamma distribution models. It is also performs better than the symmetric-truncated stable and stable distribution models, except at higher user density. Wireless Networks Cognitive Radios Network Modeling Cognitive Radio Networks Cellular Networks Heterogeneous Networks Homogeneous Cellular Networks Heterogeneous Cellular Networks Cognitive Radio Systems Cognitive Radio (CR) Communication Engineering
13	Internet radio: Identifying administrative and regulatory gaps in a cyberspace world without borders Sundstrom, Linda-Marie 01 January 2002 (has links) The purpose of this paper is to identify gaps in regulatory policies resulting from the emergence of Internet radio. To accomplish this purpose, the paper seeks to: 1) provide insights into agencies that may have direct involvement in potentially regulating Internet radio; 2) explore the concepts of jurisdiction in cyberspace; and 3) address the regulatory challenges that exist when traditional country borders no longer apply. Communication and radio systems Internet -- Law and legislation Public Administration Technology and Innovation
14	Train-borne Antennas : A business case study Michailidis, Georgios January 2014 (has links) The global rail network every year is used to transport approximately 21 billion of people and 10 billion tons of cargo. These numbers is estimated that are going to increase in the future. Railway will become the transportation of the future. The actors involved in the rail market realizing these needs started to invest funds to upgrade both the network and the electronic systems on the trains to meet the demands and attract even more customers. Currently two different electronic systems are installed on-board trains, one related to safety and security and the other for passenger services. For safety and security two different systems have deployed for signaling and train control. The first one is ERTMS system that is mainly deployed in Europe, China and other regions of the world using GSM-R technology operating at 900 MHz while the other one is solely deployed in the USA operating at 220 MHz. For passenger-services more and more operators install Wi-Fi systems on-board the train. Each of these systems has different requirements to function. The common factor of these platforms is the train-borne antenna, which plays an active role to all the systems and can improve the quality of the services provided. SMARTEQ having experience in the transportation sector, more specifically in trucks wanted to explore this growth of rail transport followed by huge investments will create openings to enter the market and expand their business portfolio. The purpose of this report is to deploy a business case for train-antennas in order to help SMARTEQ decide if there is value in the rail sector. To achieve this goal a market analysis was conducted, followed by a technical description of the systems and the needs that exist on antennas and in the end concluding with a business model. This study reveals that antenna-rail market is really difficult to enter for a new company not related to train industry and needs proper acquaintances and partnerships to become a leading supplier. In addition due to the oligopoly of the market, competition is really high and needs a unique and competitive solution both price and technology-wise to attract the end customer. Railway Train-Borne Antennas Radio Systems Signalling ERTMS PTC LTE MIMO Business model canvas SWOT analysis Elektroteknik och elektronik
15	Mobility and Security Management in Femtocell Networks / Gestion de la Mobilité et de la Securité dans les Résaux Femtocellulaires Bouallegue, Seifeddine 30 June 2016 (has links) Les réseaux de télécommunications sont soumis à des processus d'amélioration et d'optimisation continue. Chaque nouvelle itération apporte son lot de défis et limites. En effet, la croissance exponentielle des appareils de télécommunication, des stations de base aux équipements utilisateurs conduisent à de sérieux problèmes d'economie d'énergie. En plus des menaces à la vie privée, en particulier pour les réseaux sans fil car les canaux utilisés par les opérateurs peuvent également être utilisés par une oreille indiscrète quelconque. L'optimisation de l'utilisation du spectre est également un défi en raison du fait que le spectre disponible dans les systèmes de communication sans fil est devenu une ressource très rare en raison de la demande croissante. Les réseaux émergents, tels que les femtocells, souffrent également des défis mentionnés précédemment. Le travail de thèse actuel se concentre sur la proposition de solutions aux défis cités précédemment: l'efficacité énergétique, le partage du spectre et la sécurité. Le travail de recherche présenté dans cette thèse a porté sur trois axes principaux: Premièrement, trouver un moyen de réduire au minimum la consommation d'énergie des femtocellules dans les reseaux BWA femto/macro-cellulaire en diminuant le nombre d'événements de mobilité non désirées et l'introduction de nouveaux états de puissance pour la femtocellule. En second lieu, proposer une solution qui vise à réduire le temps de transmission prévu dans le temps de séjour de l'utilisateur secondaire (SU) dans la couverture d'une femtocellule en utilisant un algorithme basé sur le temps minimum prévu de transmission dans le temps de séjour de l'équipement utilisateur (UE). Enfin, introduire un nouveau modèle qui basé sur la sélection du meilleur relais qui maximise le taux de confidentialité et les avantages de l'augmentation du nombre de relais sous la contrainte de qualité de service à la destination. / Telecommunications networks are subject to continuous improvement and enhancement processes. Every new iteration brings its set of challenges and limitations. In fact, the exponential growth in telecommunication devices, from base stations to user equipments lead to serious energy efficiency issues. Along with the privacy threats, especially for wireless networks as the channels used by operators can also be used by any eavesdropper. Spectrum usage optimization is also a challenge due to the fact that the available spectrum in wireless communications systems has been a very rare resource because of the increasing demand. Emerging networks, such as femtocells, suffer also from the previously mentioned challenges. The current thesis work focuses on proposing several solutions to the previously cited challenges: energy efficiency, spectrum sharing and security. The research work introduced in this thesis has focused on three main axes: First, find a way to minimize the energy consumption of femtocells in macro/femto-cellular BWA networks by decreasing the number of unwanted mobility events and introducing new power states for the femtocell device. Second, propose a solution that aims to reduce the expected transmission time within the dwell time of Secondary User (SU) in the coverage of a femtocell using an algorithm based on the minimum expected transmission time within the dwell time of the User Equipment (UE) in the coverage of the femtocell. Finally, introduce a new scheme that is based on best relay selection method that maximizes the secrecy rate and benefits from increasing the number of relays under QoS constraint at the destination. Systèmes de radio cognitive Information d'état de canal imparfaite Gestion des interférences Chaînes de Markov Analyse de performance Sélection Cognitive radio systems Relay selection Secrecy rate 004
16	Efficient Wideband Digital Front-End Transceivers for Software Radio Systems Abu-Al-Saud, Wajih Abdul-Elah 12 April 2004 (has links) Software radios (SWR) have been proposed for wireless communication systems to enable them to operate according to incompatible wireless communication standards by implementing most analog functions in the digital section on software-reprogrammable hardware. However, this significantly increases the required computations for SWR functionality, mainly because of the digital front-end computationally intensive filtering functions, such as sample rate conversion (SRC), channelization, and equalization. For increasing the computational efficiency of SWR systems, two new SRC methods with better performance than conventional SRC methods are presented. In the first SRC method, we modify the conventional CIC filters to enable them to perform SRC on slightly oversampled signals efficiently. We also describe a SRC method with high efficiency for SRC by factors greater than unity at which SRC in SWR systems may be computationally demanding. This SRC method efficiently increases the sample rate of wideband signals, especially in SWR base station transmitters, by applying Lagrange interpolation for evaluating output samples hierarchically using a low-rate signal that is computed with low cost from the input signal. A new channelizer/synthesizer is also developed for extracting/combining frequency multiplexed channels in SWR transceivers. The efficiency of this channelizer/synthesizer, which uses modulated perfect reconstruction (PR) filter banks, is higher than polyphase filter banks (when applicable) for processing few channels, and significantly higher than discrete filter banks for processing any number of variable-bandwidth channels where polyphase filter banks are inapplicable. Because the available methods for designing modulated PR filter banks are inapplicable due to the required number of subchannels and stopband attenuation of the prototype filters, a new design method for these filter banks is introduced. This method is reliable and significantly faster than the existing methods. Modulated PR filter banks are also considered for implementing a frequency-domain block blind equalizer capable of equalizing SWR signals transmitted though channels with long impulse responses and severe intersymbol interference (ISI). This blind equalizer adapts by using separate sets of weights to correct for the magnitude and phase distortion of the channel. The adaptation of this blind equalizer is significantly more reliable and its computational requirements increase at a lower rate compared to conventional time-domain equalizers making it efficient for equalizing long channels that exhibit severe ISI. Sample rate conversion Software defined radio Channelization/channel synthesis Frequency domain blind equalization Software radio
17	Unified Cognitive Radio : Architectural Analysis, Design and Implementation Budihal, Ramachandra January 2015 (has links) (PDF) This thesis addresses the problem of building a Cognitive Radio that has the ability to interact with human users in a better way by making use of Quality of Experience (QoE) as its basis and marshalling its resources optimally around the user. Salient activities of this thesis include: Analysis of CR leads to the definition of its basic functional blocks such as cognition, learning and adaptation of radio behaviour in a multi-disciplinary manner. CR tracts signal processing for radio and sensors, cognitive and behavioural psychology for user intelligence, machine learning and AI for decision systems and optimization etc. Therefore it provides a rich, fertile area to make lateral connections across diverse helds. This thesis proposes a broad definition for CR (called as Unifed Cognitive Radio) inspired by key foundation works described in literature. Besides, it also describes its functionality and its ecosystem. Taking cue from the definition of UCR, this thesis proposes architectural frame-works for various sub-systems. Also their design and implementation is achieved with the aid of a comprehensive tested setup and is tested using realistic scenarios. Builds a set of intelligent decision systems that help to achieve the set goal. This involves various design decisions with a set of diverse algorithms from the world of signal processing, machine learning and articial intelligence. Transitioning disparate small functional entities (mostly built around experiments) into an integrated system that works in real-world environment is the key aspect of this thesis. It is definitely a challenging task. Therefore, starting from deterring the architectural reference frameworks for realizing various sub-systems of UCR to an evaluation based on integrated scenario, this being an important final step constitutes a sign cant amount of work. Analysis and implementation of the integrated system to meet the desired end functionality - QoE centricity of the CR system to satisfy the needs of the end user better is the contribution of this thesis Cognitive Radio Systems Unified Cognitive Radio (UCR) Cognitive Radio Cognitive Radio Testbed ANRC's Hybrid CR ANRC Gybrid Testbed Cognitive Engine Cognitive Scheduler Quality of Experience (QoE) CR System Electronic Systems Engineering
18	Analysis of recent spectrum sharing concepts in policy making Mustonen, M. (Miia) 07 November 2017 (has links) Abstract During the last couple of decades a lot of research efforts have been spent on developing different spectrum sharing concepts. As the traditional regulatory methods for spectrum allocation are proving inadequate in responding to a growing need for mobile spectrum in a timely manner and finding spectrum for exclusive use is getting increasingly difficult, the political atmosphere is also becoming more and more receptive to new innovative spectrum sharing concepts that increase the efficiency of spectrum use. These concepts also provide regulatory authorities an opportunity to fundamentally change the current major operator driven mobile market and thereby to allow new players and innovative services to surface. However, there is still a gap between the work done by the research community and the work of the regulatory authorities. In this thesis, the aim is to clarify the reasons behind this gap by analysing three prevailing regulatory spectrum sharing concepts: Licensed Shared Access, the three-tier model and TV white space concept. As different stakeholders involved in spectrum sharing – the incumbent user, the entrant user and the regulatory authority – have very diverse roles in spectrum sharing, their incentives and key criteria may vary significantly. In order for a spectrum sharing concept to have a chance in a real life deployment, all these perspectives need to be carefully considered. In fact, a feasible spectrum sharing concept is a delicate balance between the viewpoints of different stakeholders, not necessarily the one offering the most efficient spectrum utilization. This thesis analyses spectrum sharing concepts from all these perspectives and as a consequence unveils the common process model for implementing a spectrum sharing concept in real life, highlighting the distinct roles of different stakeholders in its phases. / Tiivistelmä Parin viimeisen vuosikymmenen aikana tutkimusyhteisö on kehittänyt valtavasti eri käsitteitä ja tuloksia taajuuksien yhteiskäyttöön. Matkapuhelinoperaattoreiden nopeasti kasvavan tiedonsiirto- ja taajuustarpeen myötä myös poliittinen ilmapiiri on muuttunut vastaanottavaisemmiksi uusille jaetuille taajuuksienkäyttömalleille, joilla voidaan sekä lisätä taajuuksien käytön tehokkuutta että mahdollistaa uusien toimijoiden ja innovatiivisten palvelujen kehitys. Taajuuksien yhteiskäyttömalleihin liittyvä tutkimustyö ei kuitenkaan usein palvele suoraan taajuusviranomaisten tarpeita. Tämän työn tavoitteena on selvittää syitä tähän kolmen vallitsevan joustavan taajuuksienkäyttökonseptin avulla: lisensoidun taajuuksien yhteiskäyttömallin, kolmitasoisen taajuuksien yhteiskäyttömallin ja TV kaistojen yhteiskäyttömallin. Eri toimijoilla on hyvin erilaiset roolit taajuuksien yhteiskäytössä ja siksi sekä heidän kannustimensa että keskeiset kriteerit voivat olla hyvin erilaiset. Käytäntöön sopiva jaetun taajuudenkäytön malli onkin usein kompromissi eri näkemysten omaavien toimijoiden kesken, ei välttämättä taajuuksien käytöltään tehokkain vaihtoehto. Tässä työssä analysoidaan eri taajuuksien yhteiskäyttömalleja sekä eri toimijoiden näkökulmia. Analyysin tuloksena luodaan yleinen prosessimalli taajuuksien yhteiskäyttömallien toteutukselle sekä identifioidaan eri toimijoiden roolit sen eri vaiheissa. Citizen’s Broadband Radio System Licensed Shared Access TV white spaces cognitive radio systems spectrum regulation spectrum sharing TV kaistojen yhteiskäyttömalli kognitiivinen radiojärjestelmä taajuuksien yhteiskäyttömallit taajuus sääntely
19	Architecture and Design of Wide Band Spectrum Sensing Receiver for Cognitive Radio Systems Adhikari, Bijaya January 2014 (has links) (PDF) To explore spectral opportunities in wideband regime for cognitive radio we need a wideband spectrum sensing receiver. Current wideband receiver architectures need wideband analog to digital converter (ADC) to sample wideband signal. As current state-of-art ADC has limitation in terms of power and sampling rate, we need to explore some alternative solutions. Compressive sampling (CS) data acquisition method is one of the solutions. Cognitive Radio signal, which is sparse in frequency domain can be sampled at Sub-Nyquist rate using low rate ADC. To relax the receiver complexity in terms of performance requirement we can use Modulated Wideband Converter (MWC) architecture, a Sub-Nyquist sampling method. In this thesis circuit design of this architecture covers signal within a frequency range of 500 MHz to 2.1 GHz, with a channel bandwidth of 1600 MHz. By using 8 parallel lines with channel trading factor of 11, effective sampling rate of 550 MHz is achieved for successful support recovery of multi-band input signal of size N=12. Cognitive Radio Spectrum Sensing Modulated Wideband Converter (MWC) Analog to Digital Converter (ADC) MATLAB Wideband Spectrum Sensing Compressive Sensing Wideband Spectrum Sensing Receiver Cognitive Radio Signal Cognitive Radio Systems Communication Engineering

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