57 research outputs found
PROCESS FOR BREAKING DOWN THE LTE SIGNAL TO EXTRACT KEY INFORMATION
The increasingly important role of Long Term Evolution (LTE) has increased security concerns among the service
providers and end users and made security of the network even more indispensable. The main thrust of this thesis is to
investigate if the LTE signal can be broken down in a methodical way to obtain information that would otherwise be
private; e.g., the Global Positioning System (GPS) location of the user equipment/base station or identity (ID) of the
user. The study made use of signal simulators and software to analyze the LTE signal to develop a method to remove
noise, breakdown the LTE signal and extract desired information. From the simulation results, it was possible to
extract key information in the downlink like the Downlink Control Information (DCI), Cell-Radio Network
Temporary Identifier (C-RNTI) and physical Cell Identity (Cell-ID). This information can be modified to cause
service disruptions in the network within a reasonable amount of time and with modest computing resources.Defence Science and Technology Agency, SingaporeApproved for public release; distribution is unlimited
Vývoj standardů mobilních sítí
Import 21/10/2013This bachelor thesis deals primarily with a development of LTE technologies and its possibilities of deployment in the Czech Republic and abroad. The thesis is initially focused on the development of mobile network standards since the advent of 3rd generation networks in Release 99 up to the newest Release 12 where the main telecommunication technologies are continuously described along with their advantages. As the LTE represents next evolution step in a field of mobile data transmission, the comparison of LTE and HSPA+ physical layers is also included. Among other it describes information blocks from transport channel over the transmission path and regaining of user data. The development of LTE networks in the world deals with an actual progress of the deployment of this technology. In detail, there are described countries where the LTE is in a commercial service among with a comparison of used frequency bands. Addressing with issue of development and deployment of LTE in the Czech Republic is a content of the last part. With regard to the current network state of each provider, it is also focused on legislation, backbone networks and frequency planning which is closely related to the forthcoming auction of the Digital Dividend.Tato bakalářská práce pojednává především o vývoji LTE technologíí a jejich možnostech nasazení v České Republice a ve světě. Práce se nejprve zaměřuje na vývoj mobilních standardů od nástupu sítí třetí generace, Release 99, až po doposud nejnovější Release 12, kde jsou postupně probrány vrcholové telekomunikační technologie a jejich přednosti. V práci jsou dále popsány rozdíly fyzických vrstev mezi technologiemi HSPA+ a LTE, jelikož se jedná o další evoluční krok v oblasti datových přenosů. Popis obsahuje blokové srovnání od samotné inicializace transportního kanálu, po přenosovou cestu a opětovného získání užitečné informace. Vývoj LTE sítí ve světě pojednává o aktuálním stavu vývoje a rozšíření této technologie. Podrobně jsou zde popsány země, kde se LTE používá spolu se srovnáním použitých frekvenčních pásem. Poslední část řeší otázku vývoje a nasazení LTE v České Republice. S ohledem na aktuální stav sítí jednotlivých operátoru je sekce zaměřena také na legislativu, páteřní sítě a frekvenční plánování, s čímž souvisí také očekáváná aukce z digitální dividendy.440 - Katedra telekomunikační technikyvelmi dobř
The new enhancement of UMTS: HSDPA and HSUPA
During the last two decades, the world of the mobile communications grew a lot, as a
consequence of the increasing necessity of people to communicate. Now, the mobile
communications still need to improve for satisfies the user demands.
The new enhancement of UMTS in concrete HSDPA and HSUPA is one of these
improvements that the society needs. HSDPA and HSUPA which together are called
HSPA, give to the users higher data rates in downlink and uplink. The higher data rates
permit to the operators give more different types of services and at the same time with
better quality. As a result, people can do several new applications with their mobile
terminals like applications that before a computer and internet connection were
required, now it is possible to do directly with the mobile terminal.
This thesis consists in study these new technologies denominated HSDPA and HSUPA
and thus know better the last tendencies in the mobile communications. Also it has a
roughly idea about the future tendencies
3G migration in Pakistan
The telecommunication industry in Pakistan has come a long way since the country\u27s independence in 1947. The initial era could be fairly termed as the PTCL (Pakistan Telecommunication Company Limited) monopoly, for it was the sole provider of all telecommunication services across the country. It was not until four decades later that the region embarked into the new world of wireless communication, hence ending the decades old PTCL monopoly. By the end of the late 1990\u27s, government support and international investment in the region opened new doors to innovation and better quality, low cost, healthy competition. Wireless licenses for the private sector in the telecommunication industry triggered a promising chain of events that resulted in a drastic change in the telecommunication infrastructure and service profile. The newly introduced wireless (GSM) technology received enormous support from all stakeholders (consumers, regulatory body, and market) and caused a vital boost in Pakistan\u27s economy. Numerous tangential elements had triggered this vital move in the history of telecommunications in Pakistan. Entrepreneurs intended to test the idea of global joint ventures in the East and hence the idea of international business became a reality. The technology had proven to be a great success in the West, while Pakistan\u27s telecom consumer had lived under the shadow of PTCL dominance for decades and needed more flexibility. At last the world was moving from wired to wireless! Analysts termed this move as the beginning of a new era. The investors, telecommunication businesses, and Pakistani treasury prospered. It was a win-win situation for all involved. The learning curve was steep for both operators and consumers but certainly improved over time. In essence, the principle of deploying the right technology in the right market at the right time led to this remarkable success. The industry today stands on the brink of a similar crossroads via transition from second generation to something beyond. With the partial success of 3G in Europe and the USA, the government has announced the release of three 3G licenses by mid 2009. This decision is not yet fully supported by all but still initiated parallel efforts by the operators and the vendors to integrate this next move into their existing infrastructure
UMTS versus DVB-SH na transmissão de sinais de vídeo
Dissertação para obtenção do grau de Mestre em Engenharia de Electrónica e TelecomunicaçõesAs comunicações móveis têm sofrido um grande crescimento ao longo dos últimos anos. Cada vez mais o terminal móvel tornou-se um elemento fundamental de comunicação, de trabalho e entretimento.
A televisão móvel surge com um serviço necessário e complementar aos serviços existentes nas redes móveis, permitindo assim uma maior liberdade de escolha e temporal aos utilizadores.
Esta dissertação de mestrado tem como objectivo a comparação das tecnologias UMTS e DVB-SH, no que respeita a níveis de sinal transmitidos e área de cobertura de cada célula, uma vez que ambas as tecnologias são utilizadas para a transmissão de TV móvel.
O trabalho apresentado está dividido em três partes. Na primeira parte, são descritas as duas tecnologias em análise (UMTS e DVB-SH) e a evolução que as redes móveis tiveram ao longo dos tempos. Na segunda parte é feito o planeamento das duas redes, a demonstração e análise das medidas realizadas, a comparação entre os dois sistemas, de maneira a verificar-se qual dos dois sistemas tem melhor cobertura. Na parte final, irá perceber-se se estas tecnologias podem ser consideradas concorrentes ou complementares.Mobile communications have experienced tremendous growth over the recent years. Increasingly, the mobile terminals become an essential part for communication, work and entertainment. Mobile TV comes with the needed for a service and complimentary to services available on mobile networks, enabling greater freedom of choice and time to users. The objective of this dissertation is to compare UMTS and DVB-SH in relation to levels of transmitted signal and coverage area of each cell, since both technologies are used for broadcast mobile TV. The work presented is divided into three parts. The first part describes the two technologies in analysis (UMTS and DVB-SH) and the evolution that the mobile networks had over time. In the second part is done the planning for the two networks, demonstrations and analysis of the measurements performed, the comparison between the two systems, so it can be possible to understand which of the two systems have better coverage. In the final part, we will be able to understand if these technologies can be regarded as competitors or complementary
Auto configuration dans LTE : procédés de mesure de l’occupation du canal radio pour une utilisation optimisée du spectre
Projecte final de carrera realitzat en col.laboració amb el centre INP Grenoble - ENSIMAG. École Nationale Supérieure d’Informatique et de Mathématiques Appliquées de Grenoble i Alcatel-Lucent Bell LabsLong Term Evolution (LTE) est la quatrième génération de technologies radio qui est
conçue afin de fournir des débits de données élevés aux mobiles, offrir une faible
latence et permettre une flexibilité accrue dans l'attribution du spectre de fréquence.
Les techniques de réutilisation du spectre permettent ainsi de faire face à la demande
croissante en bande passante des utilisateurs. Nous nous concentrons sur le cas où toutes
les cellules partagent la même bande de fréquence (frequency reuse-1). Ces cellules
ainsi déployées peuvent générer des niveaux d’interférence intra-canal importants, ce
qui affecte considérablement les performances du réseau.
Le but de ce stage est de développer des méthodes de sensing du spectre permettant de
caractériser les cellules qui partagent les mêmes ressources radio. En utilisant des
informations telles que nombre de cellules en compétition notamment, les mécanismes
d’allocation des ressources radio peuvent être optimisés, améliorent ainsi la
performance du réseau.
Les méthodes ainsi étudiées exploitent les propriétés d’orthogonalité des canaux de
contrôle tels que signaux de synchronisation diffusés par chaque station de base.
Une première étape du stage a ainsi consisté à mettre en place des méthodes de
synchronisation fiables en ‘frequency reuse-1’ et d’en étudier les performances.
Au cours de la deuxième partie du stage, une méthode d’identification du nombre de
cellules en compétition sur un même canal est proposée. Cette méthode repose sur
l’utilisation des canaux de synchronisation.
Le stage a lieu sur le site de Villarceaux d’ Alcatel-Lucent Bell Labs et s’est intégré aux
projets de recherche sur l'auto-configuration des cellules dans un réseau LTE. Ce
rapport présente les travaux réalisés pendant le stage. Celui-ci s’est concentré sur la
procédure réalisée par les mobiles afin de se synchroniser au réseau. Dans cette optique,nous avons proposé une méthode pour trouver le nombre des cellules en compétition, afin de caractériser l'occupation du spectre
Heterogeneous LTE/ Wi-Fi architecture for intelligent transportation systems
Intelligent Transportation Systems (ITS) make use of advanced technologies to enhance road safety and improve traffic efficiency. It is anticipated that ITS will play a vital future role in improving traffic efficiency, safety, comfort and emissions. In order to assist the passengers to travel safely, efficiently and conveniently, several application requirements have to be met simultaneously. In addition to the delivery of regular traffic and safety information, vehicular networks have been recently required to support infotainment services. Previous vehicular network designs and architectures do not satisfy this increasing traffic demand as they are setup for either voice or data traffic, which is not suitable for the transfer of vehicular traffic. This new requirement is one of the key drivers behind the need for new mobile wireless broadband architectures and technologies. For this purpose, this thesis proposes and investigates a heterogeneous IEEE 802.11 and LTE vehicular system that supports both infotainment and ITS traffic control data. IEEE 802.11g is used for V2V communications and as an on-board access network while, LTE is used for V2I communications. A performance simulation-based study is conducted to validate the feasibility of the proposed system in an urban vehicular environment. The system performance is evaluated in terms of data loss, data rate, delay and jitter. Several simulation scenarios are performed and evaluated. In the V2I-only scenario, the delay, jitter and data drops for both ITS and video traffic are within the acceptable limits, as defined by vehicular application requirements. Although a tendency of increase in video packet drops during handover from one eNodeB to another is observed yet, the attainable data loss rate is still below the defined benchmarks. In the integrated V2V-V2I scenario, data loss in uplink ITS traffic was initially observed so, Burst communication technique is applied to prevent packet losses in the critical uplink ITS traffic. A quantitative analysis is performed to determine the number of packets per burst, the inter-packet and inter-burst intervals. It is found that a substantial improvement is achieved using a two-packet Burst, where no packets are lost in the uplink direction. The delay, jitter and data drops for both uplink and downlink ITS traffic, and video traffic are below the benchmarks of vehicular applications. Thus, the results indicate that the proposed heterogeneous system offers acceptable performance that meets the requirements of the different vehicular applications. All simulations are conducted on OPNET Network Modeler and results are subjected to a 95% confidence analysis
New Radio Small Cell Propagation Environment
The characterization of the wireless medium in indoor small cell networks is essential to obtain appropriate modelling of the propagation environment. This dissertation on ”MeasurementBased Characterization of the 5G New Radio Small Cell Propagation Environment” has been
developed in an experimental environment. The underlying tasks are divided into three
phases. The first phase took place in the laboratory of the Instituto de Telecomunicações
– Covilhã, located in the Departamento de Engenharia Electromecânica of Universidade da
Beira Interior. During this part of the research, spectrum measurements and the characterization of the S11 parameter (response in the first port for the signal incident in the first port)
have been made experimentally through the printed circuit board antennas in the 2.6 GHz
and 3.5 GHz frequency bands operating in the 2.625 GHz and 3.590 GHz center frequency,
manufactured by us. The fabrication of the antennas was preceded by the simulation in the
student version CST STUDIO software. In this phase, the spectrum measurements and the
characterization of Smith Chart have been made to measure gain and impedance using the
Rohde & Schwarz Vector Network Analyzer (VNA) from IT laboratory. Based on mathematical calculations and considerations on the conductivity and permeability of the environment,
the antennas were built for use in indoor and outdoor environments. The developed antennas are characterized by their bandwidth and their radiation characteristics.
The second phase took place in the three rooms adjacent to the laboratory, in which the
srsLTE emulation software was applied to the 4G indoor scenario. The experimental setup
includes three elements, namely a base station (BS or 4G eNodeB), which transmits the communication signal and which served as a signal source, a user equipment (UE), and an interfering eNodeB. The size of each room is 7.32 × 7.32 square meters. While room 1 is the room
of interest, where theoretical and practical measurements took place, BSs that act as wireless
interfering nodes are also separately considered either in room 2 or room 3. By varying the
UE positions within room 1, it was possible to verify that the highest values of the received
power occur close to the central BS. However, the received power does not decrease suddenly
because of the reduced gain in the radiation pattern in the back part of the antenna. In addition, it was demonstrated that there is an effect of “wall loss”proven by the path loss increase
between room 1 and room 2 (or between room 2 and 3). If we consider an attenuation for
each wall of circa 7-9 dB the trend of the WINNER II at 2.625 GHz model for the interference coming across different walls is verified. Future work includes to investigate the 3.5
GHz frequency band.
The third phase is being carried out at the facilities of the old aerodrome of Covilhã which,
using a temporary license assigned to us by Instituto de Comunicações Português (ICP-ANACOM)
as the two first phases. The aim of this phase is to investigate the two-slope behaviour in the
UMi scenario. Very initial LTE-Advanced tests have been performed to verify the propagation of the two ray (with a reflection in the asphalt) from BS implemented with USRP B210
and srsLTE system by considering an urban cell with a length of 80 m and an interfering base
station at 320 m, at 2500 - 2510 MHz (DL - Downlink) by now, mainly due to the current
availability of a directional antenna in this specific band.A investigação de sinais rádio em comunicações sem fios continua a gerar considerável interesse em todo mundo, devido ao seu amplo leque de aplicações, que inclui a troca de dados
entre dois ou mais dispositivos, comunicações móveis e via Wi-Fi, infravermelho, transmissão de canais de televisão, monitorização de campos, proteção e vigilância costeira e observação ambiental para exploração. A tecnologia de ondas de rádio é o um dos vários recursos
que viabilizam as comunicações de alta velocidade e encurta distâncias entre dois pontos em
comunicação. Na realidade, caracterização da comunicação em redes com pequenas células é essencial para obter uma modelização apropriada de ambiente de propagação. Esta
dissertação sob o tema ”Measurement-Based Characterization of the 5G New Radio Small
Cells Propagation Envioronment” foi desenvolvida num ambiente experimental, cujas tarefas foram divididas em fases. A primeira fase teve lugar no laboratório do Instituto de
Telecomunicações da Covilhã (IT), afeto ao Departamento de Engenharia Eletromecânica.
Nela foram feitas as simulações das antenas no software CST STUDIO, versão do estudante
que foram utilizadas nos equipamentos durante as medições. Seguiu-se a padronização das
mesmas nas faixas dos 2.6 GHz e 3.5 GHz, nas frequências centrais de 2.625 GHz e 3.590
GHZ, usando placas de circuitos impressos. Em seguida, foram feitas as medições do espectro e a caraterização do S11 e da carta de Smith para medir a impedância de entrada e
o ganho. As medições foram feitas com recurso ao Vector Network Analyzer (VNA). Com
base em cálculos matemáticos e considerações sobre a condutividade e permeabilidade do
ambiente, as antenas foram construídas para uso em ambientes internos e externos e com
ou sem interferentes. As antenas desenvolvidas são caracterizadas por sua largura de banda
e suas características de radiação.
A segunda fase decorreu nas três salas adjacentes ao laboratório de Telecomunicações, na
qual foi montada a topologia com o sistema srsLTE associado aos USRP B210 ligados aos
computadores com o sistema operativo Linux com três componentes, nomeadamente uma
estação base (BS), que serviu de fonte do sinal de comunicação com um equipamento de
utilizador (UE) que o recebe, e dois interferentes. Importa realçar que esta segunda fase
foi dividida em duas etapas, das quais uma sem interferente para medir a potência recebida
da própria estação base e outra com os interferentes mais próximo e mais afastado da sala
do sinal da própria célula. O objetivo desta fase foi o de verificar o modelo de propagação
do sinal de comunicação da tecnologia LTE e medir a potência recebida pelo utilizador com
recurso ao Analisador de Espectro portátil FSH8 da Rohde & Schwarz capaz de medir de 10
kHz a 8 GHz, feita na frequência central de 2.625 GHz.
Nas medições feitas em ambiente interior, o tamanho de cada uma das três salas é 7.32 ×
7.32 metros quadrados. Embora a sala 1 seja a sala de interesse, onde ocorreram as medições
teóricas e práticas, as BSs que atuam como nós interferentes também são consideradas separadamente na sala 2 ou na sala 3. Ao variar as posições de UE dentro da sala 1, foi possível
verificar que os valores superiores da potência recebida ocorrem próximos à BS central. No
entanto, a potência recebida não diminui repentinamente por causa do efeito do ganho reduzido no diagrama de radiação na parte traseira da antena. Além disso, foi demonstrado que existe um efeito de “atenuação da parede” comprovado pelo aumento da atenuação de
trajeto entre a sala 1 e a sala 2 (ou entre a sala 2 e 3). Se considerarmos uma atenuação para
cada parede de cerca de 7-9 dB, verifica-se a tendência do modelo WINNER II a 2.625 GHz
para a interferência que atravessa as diversas paredes. Trabalhos futuros incluem a investigação da banda de frequência de 3.5 GHz.
Já a terceira fase foi realizada nas instalações do antigo aeródromo da Covilhã, e em todas
as fases servimo-nos de uma licença concedida pela Entidade Reguladora do Espectro (ICPANACOM), que permitiu realizar testes de verificação da propagação do sinal no ambiente
livre na faixa de frequência dos 2.6 GHz com 2500 – 2510 MHz (UL - Uplink) e 2620 – 2630
MHz (DL - Downlink). A terceira fase ainda está a decorrer nas instalações do antigo aeródromo da Covilhã, mediante a mesma licença temporária que nos foi atribuída pelo Instituto
de Comunicações de Portugal ou Autoridade Nacional de Comunicações (ICP-ANACOM)
sendo esta reguladora do espectro. O objetivo é continuar a investigar o comportamento
de duas inclinações no cenário UMi. Testes muito iniciais LTE-Advanced foram realizados
para verificar a propagação dos dois raios (direto e refletido, com uma reflexão no asfalto)
do BS implementado com o sistema USRP B210 e srsLTE, considerando uma célula urbana
com um comprimento de 80 metros uma estação base interferente em 320 metros, a operar, provisoriamente, a 2500 - 2510 MHz (na ligação descendente, DL - Downlink, devido
à disponibilidade de uma antena direcional específica para esta banda).
Finalmente este trabalho de investigação pode ser resumidamente dividido em três categorias, nomeadamente investigação de análises teóricas e matemáticas relevantes da propagação de ondas de rádio em meios com e sem interferência significativa. Medições para verificar o comportamento do sinal de propagação da tecnologia LTE-Advanced com recursos ao
analisador de espectro, simulação das antenas, fabricação e medição das características de
radiação das mesmas. Assim, as antenas concebidas com bons resultados foram fabricadas
nas instalações da Faculdade de Ciências no Departamento de Física da Universidade da
Beira Interior, sendo de seguidas testadas e caracterizadas com o auxílio do Vector Nettwork
Analyzer disponível no Laboratório de Telecomunicações do Departamento de Engenharia
Eletromecânica da Universidade da Beira Interior. E, finalmente, os cálculos estatísticos que
incluem o teste de normalidade de Kolmogorov-Smirnov com recurso ao software estatístico
SPSS para validar os resultados obtidos seguida da construção dos gráficos no Matlab em
3D, conforme a superfície da sala
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