Future Trends and Challenges for Mobile and Convergent Networks

Some traffic characteristics like real-time, location-based, and community-inspired, as well as the exponential increase on the data traffic in mobile networks, are challenging the academia and standardization communities to manage these networks in completely novel and intelligent ways, otherwise, current network infrastructures can not offer a connection service with an acceptable quality for both emergent traffic demand and application requisites. In this way, a very relevant research problem that needs to be addressed is how a heterogeneous wireless access infrastructure should be controlled to offer a network access with a proper level of quality for diverse flows ending at multi-mode devices in mobile scenarios. The current chapter reviews recent research and standardization work developed under the most used wireless access technologies and mobile access proposals. It comprehensively outlines the impact on the deployment of those technologies in future networking environments, not only on the network performance but also in how the most important requirements of several relevant players, such as, content providers, network operators, and users/terminals can be addressed. Finally, the chapter concludes referring the most notable aspects in how the environment of future networks are expected to evolve like technology convergence, service convergence, terminal convergence, market convergence, environmental awareness, energy-efficiency, self-organized and intelligent infrastructure, as well as the most important functional requisites to be addressed through that infrastructure such as flow mobility, data offloading, load balancing and vertical multihoming.Comment: In book 4G & Beyond: The Convergence of Networks, Devices and Services, Nova Science Publishers, 201

4G Technology Features and Evolution towards IMT-Advanced

Kiinteiden- ja mobiilipalveluiden kysyntä kasvaa nopeasti ympäri maailmaa. Älykkäiden päätelaitteiden, kuten iPhone:n ja Nokia N900:n markkinoilletulo yhdistettynä näiden korkeaan markkinapenetraatioon ja korkealuokkaiseen käyttäjäkokemukseen lisäävät entisestään palveluiden kysyntää ja luovat tarpeen jatkuvalle innovoinnille langattomien teknologioiden alalla tavoitteena lisäkapasiteetin ja paremman palvelunlaadun tarjoaminen. Termi 4G (4th Generation) viittaa tuleviin neljännen sukupolven mobiileihin langattomiin palveluihin, jotka International Telecommunications Union:in Radiocommunication Sector (ITU-R) on määritellyt ja nimennyt International Mobile Telecommunications-Advanced (IMT-Advanced). Nämä ovat järjestelmiä, jotka pitävät sisällään IMT:n ne uudet ominaisuudet, jotka ylittävät IMT-2000:n vaatimukset. Long Term Evolution-Advanced (LTE-Advanced) ja IEEE 802.16m ovat IMT-A sertifiointiin lähetetyt kaksi pääasiallista kandidaattiteknologiaa. Tässä diplomityössä esitellään kolmannen sukupolven järjestelmien kehityspolku LTE:hen ja IEEE 802.16e-2005 asti. Lisäksi työssä esitetään LTE-Advanced:n ja IEEE 802.16m:n uudet vaatimukset ja ominaisuudet sekä vertaillaan näiden lähestymistapoja IMT-A vaatimusten täyttämiseksi. Lopuksi työssä luodaan katsaus LTE ja IEEE 802.16e-2005 (markkinointinimeltään Mobile WiMAX) -järjestelmien markkinatilanteeseen.The demand for affordable bandwidth in fixed and mobile services is growing rapidly around the world. The emergence of smart devices like the iPhone and Nokia N900, coupled with their high market penetration and superior user experience is behind this increased demand, inevitably driving the need for continued innovations in the wireless data technologies industry to provide more capacity and higher quality of service. The term "4G" meaning the 4th Generation of wireless technology describes mobile wireless services which have been defined by the ITU's Radiocommunication Sector (ITU-R) and titled International Mobile Telecommunications-Advanced (IMT-Advanced). These are mobile systems that include the new capabilities of IMT that go beyond those of IMT-2000. Long Term Evolution-Advanced (LTE-Advanced) and IEEE 802.16m are the two main candidate technologies submitted for IMT-Advanced certification. This thesis reviews the technology roadmap up to and including current 3G systems LTE from the 3rd Generation Partnership Project (3GPP) and IEEE 802.16e-2005 from the Institute of Electrical and Electronics Engineers (IEEE). Furthermore, new requirements and features for LTE-Advanced and IEEE 802.16m as well as a comparative approach towards IMT-Advanced certification are presented. Finally, the thesis concludes with a discussion on the market status and deployment strategies of LTE and IEEE 802.16e-2005, or Mobile WiMAX as it is being marketed

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

Handover between LTE and 3G Radio Access Technologies: Test measurement challenges and field environment test planning

LTE (Long Term Evolution) on neljännen sukupolven matkapuhelinverkkoteknologia, joka tarjoaa paremman suorituskyvyn verrattuna perinteisiin matkapuhelinverkkoihin. Tehostettu ilmarajapinta sekä litteä, "puhdas-IP" -pakettidatalle optimoitu verkko-arkkitehtuuri tarjoavat parempia siirtonopeuksia ja lyhyempiä siirtoviiveitä käyttäjille, sekä operaattoreille kustannustehokasta toimintaa. Ensimmäisten kaupallisten LTE-verkkojen käyttöönotto perustuu todennäköisesti paikallisverkkoihin suurissa kaupungeissa. Suunnitteltuna tavoitteena on kuitenkin tarjota maailmanlaajuinen mobiilipalvelu, jonka avulla tilaajat saavat mistä vain ja milloin vain yhteyden sekä operaattorin, että Internetin tarjoamiin palveluihin, ja että yhteys myös pysyy päällä, kun käyttäjät ovat liikkeellä. Saumattoman palvelun tarjoamiseksi, solunvaihto LTE:n ja perinteisten radio-teknologioiden kuten GSM:n ja UMTS:n välillä on välttämätön ominaisuus. Tämän työn tutkimusaihe on aktiivinen solunvaihto LTE:n ja 3G matkapuhelinverkkojen, mikä on tärkeä toiminnallisuus operaattoreille, jotka pyrkivät tarjoamaan kattavaa mobiilipalvelua. Täytettääkseen tietyt palvelun laatua koskevat vaatimukset, tämän toiminnallisuuden täytyy käydä läpi kehitysprosessi, joka sisältää perusteellisen toiminnallisuus-, suorituskyky-sekä viankorjaustestaamisen. Tässä työssä esitellään testaussuunnitelma, sekä työkalut ja menetelmät testien suorittamiseen. Verkon suorituskykyä kuvaavat mittarit, kuten solunvaihdon onnistumisprosentti, yhteyden katkeamisprosentti, tiedonsiirtonopeus ja solunvaihdon viive esitellään yksityiskohtaisesti. Luotettavien tuloksien saamiseksi mittaukset suoritetaan kenttätesteinä, jotta radio-olosuhteet ovat realistisia. Oikeiden työkalujen avulla, kuten ilmarajapintaa analysoiva XCAL-ohjelmisto, voidaan tuottaa tuloksia, jotka vastaavat operaattorien tekemiä testauksia kaupallisissa LTE-verkoissa.LTE (Long Term Evolution) is a fourth generation cellular network technology that provides improved performance compared to legacy cellular systems. LTE introduces an enhanced air interface as well as a flat, "all-IP" packet data optimized network architecture that provides higher user data rates, reduced latencies and cost efficient operations. The rollout of initial commercial LTE networks is likely based on service hot spots in major cities. The design goal is however to provide a universal mobile service that allows the subscribers to connect to both operator and Internet services anywhere anytime and stay connected as the users are on the move. To provide seamless service, mobility towards widespread legacy radio access technologies such as GSM and UMTS is required. The research topic of this thesis is handover from LTE to 3G cellular networks, which is a high priority item to the operators that seek to provide an all-round service. To satisfy certain quality of service requirements this feature needs to go through a development process that consists of thorough functionality, performance and fault correction testing This thesis introduces a plan for test execution and introduces the tools and procedures required to perform inter radio access technology handover tests. The metrics that indicate the network performance, namely Key Performance Indicators (KPIs), i.e. handover success rate, call drop rate, throughput and handover delay are introduced in detail. In order to provide reliable results, the plan is to perform the measurements in a field environment with realistic radio conditions. With the proper tools such as XCAL for air interface performance analysis, the field tests should provide results that are comparable to tests performed by the operators in live commercial LTE networks

Evaluation of 3GPP Technology Candidate Towards Fourth Generation Mobile

[ES] LTE-Advanced es una de las tecnologías candidatas para convertirse en la próxima generación de comunicaciones móviles (4G). Es responsabilidad de la Unión Internacional de las Telecomunicaciones (UIT) evaluar esta tecnología a través de los Grupos de Evaluación Externos (GEE), entre los cuales se encuentra el consorcio WINNER+ (Wireless World Initiative New Radio +). El Grupo de Comunicaciones Móviles (GCM) del Instituto de Telecomunicaciones y Aplicaciones Multimedia, como socio de WINNER+, está analizando diferentes técnicas para optimizar la red de acceso radio LTEAdvanced. Esta tesina de máster se enmarca dentro de este trabajo, y especialmente, en la comparación de los turbo-códigos (TC) y Low Density Partity Check (LDPC) para anchos de banda de hasta 100 MHz. Los resultados obtenidos muestran que tanto los TC como los LDPC son buenos codificadores para esos tamaños de bloque. Los códigos LDPC representan una mejora de 0.5 dB como máximo respecto a los TC. Además, se ha realizado un estudio de prestaciones de la capa física de LTE en el enlace ascendente y descendente, junto con una propuesta de calibración de este tipo de simulaciones de enlace.[EN] LTE-Advanced is one promising candidate technology to become part of the next generation mobile (4G). It is up to the International Telecommunication Union (ITU) standardization body to assess this technology through the External Evaluation Groups (EEG), being one of them the WINNER+ project (Wireless World Initiative New Radio +). The Mobile Communications Group (MCG) of the Institute of Telecommunications and Multimedia Applications, as a partner of WINNER+, is currently analyzing and proposing different techniques with the aim of optimizing the LTE-Advanced radio access network. This Master Thesis is part of this activity and, especially, on the comparison of Turbo (TC) and Low Density Parity Check (LDPC) codes for bandwidths up to 100 MHz. Results prove that both TC and LDPC codes are good encoders for those block sizes. The LDPC codes only entail a maximum 0.5 dB improvement as compared with TC. In addition to this assessment, a performance study of LTE downlink/uplink (DL/ UL) physical layer together with a calibration proposal for link level simulations has been carried out.Cabrejas Peñuelas, J. (2009). Evaluation of 3GPP Technology Candidate Towards Fourth Generation Mobile. http://hdl.handle.net/10251/27347.Archivo delegad

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