Modeling the Behavior of Multipath Components Pertinent to Indoor Geolocation

Recently, a number of empirical models have been introduced in the literature for the behavior of direct path used in the design of algorithms for RF based indoor geolocation. Frequent absence of direct path has been a major burden on the performance of these algorithms directing researchers to discover algorithms using multipath diversity. However, there is no reliable model for the behavior of multipath components pertinent to precise indoor geolocation. In this dissertation, we first examine the absence of direct path by statistical analysis of empirical data. Then we show how the concept of path persistency can be exploited to obtain accurate ranging using multipath diversity. We analyze the effects of building architecture on the multipath structure by demonstrating the effects of wall length and wall density on the path persistency. Finally, we introduce a comprehensive model for the spatial behavior of multipath components. We use statistical analysis of empirical data obtained by a measurement calibrated ray-tracing tool to model the time-of- arrival, angle-of-arrival and path gains. The relationship between the transmitter-receiver separation and the number of paths are also incorporated in our model. In addition, principles of ray optics are applied to explain the spatial evolution of path gains, time-of-arrival and angle-of-arrival of individual multipath components as a mobile terminal moves inside a typical indoor environment. We also use statistical modeling for the persistency and birth/death rate of the paths

TD-SCDMA Relay Networks

PhDWhen this research was started, TD-SCDMA (Time Division Synchronous Code Division Multiple Access) was still in the research/ development phase, but now, at the time of writing this thesis, it is in commercial use in 10 large cities in China including Beijing and Shang Hai. In all of these cities HSDPA is enabled. The roll-out of the commercial deployment is progressing fast with installations in another 28 cities being underway now. However, during the pre-commercial TD-SCDM trail in China, which started from year 2006, some interference problems have been noticed especially in the network planning and initialization phases. Interference is always an issue in any network and the goal of the work reported in this thesis is to improve network coverage and capacity in the presence of interference. Based on an analysis of TD-SCDMA issues and how network interference arises, this thesis proposes two enhancements to the network in addition to the standard N-frequency technique. These are (i) the introduction of the concentric circle cell concept and (ii) the addition of a relay network that makes use of other users at the cell boundary. This overall approach not only optimizes the resilience to interference but increases the network coverage without adding more Node Bs. Based on the cell planning parameters from the research, TD-SCDMA HSDPA services in dense urban area and non-HSDPA services in rural areas were simulated to investigate the network performance impact after introducing the relay network into a TD-SCDMA network. The results for HSDPA applications show significant improvement in the TDSCDMA relay network both for network capacity and network interference aspects compared to standard TD-SCDMA networks. The results for non- HSDPA service show that although the network capacity has not changed after adding in the relay network (due to the code limitation in TD-SCDMA), the TD-SCDMA relay network has better interference performance and greater coverage

A Technical and Market study for WiMAX

Worldwide Interoperability for Microwave Access (WiMAX) is a broadband wireless technology based on IEEE 802.16-2004 and IEEE 802.16e-2005. This thesis is a study of WiMAX technology and market. The background of WiMAX development is introduced and opportunities and challenges for WiMAX are analyzed in the beginning. Then the thesis focuses on an overview of WiMAX technology, which addresses the physical layer, MAC layer and WiMAX network architecture. The deployment status is investigated in the fourth chapter. Both product development situation and market status are discussed in this section. In the last chapter, the future development trend of WiMAX is addressed

Wide-band channel sounding in the bands above 2GHz

Modem telecommunication services require increasing data rates for both mobile and fixed applications. At frequencies in the range 2.5 GHz to 6 GHz physical constraints on the size of equipment result in antenna with moderate directivity typically with an antenna beam width of 20 degrees or greater. Thus building and ground clutter is present within the first Fresnel zones of the antenna system which gives rise to multi-path propagation. This multi-path propagation (average delay and RMS delay spread) has been investigated using a wideband FMCW channel sounder that is capable of operation at a number of frequencies. The channel sounder has been based upon a parallel architecture sounder operating within the 2 GHz band with a number of frequency conversion modules to translate operation to the new frequency bands under study. Two primary configurations have been explored. In the first of these, propagation has been measured simultaneously within the 2.5 GHz, 3.4 GHz and 5.7 GHz bands. This is believed to be novel and original. In the second configuration four parallel channels operating within the 5.7 GHz band may be operated simultaneously. This configuration supports multiple antennas at the receiver. To support the work in the bands from 2.5 GHz to 6 GHz wideband discone antenna have been designed and fabricated. A system to provide relative gain and phase calibration for up to four antennas has been developed and demonstrated. This is also believed to represent a novel method of performing antenna and array calibration. Finally, the frequency converters have been used in conjunction with additional components to provide an FMCพ sounder operating within the 60 GHz Oxygen absorption band. This work is novel in that up to 1 GHz of spectrum can be swept. To support this work a significant number of microwave components have been designed and developed. In particular a novel wide band balanced X3 multiplier and a novel impedance-matched amplitude-equaliser (to provide amplifier gain-slope equalisation) has been developed. Channel soundings have been performed at three frequencies simultaneously using band specific and common antenna. The average delay and RMS delay spread have been demonstrated to be essentially frequency independent for the environments evaluated

Laajennetun solukoon vaatimukset kolmannen sukupolven WCDMA tukiasemalle

Tämän diplomityön tarkoituksena on tutkia ja ohjeistaa mahdollisuudesta toteuttaa laajennettu solukoko olemassa olevissa WCDMA matkapuhelinverkoissa. Työn alussa pyritään luomaan yleiskäsitys WCDMA teknologiaan ja sen tarjoamiin mahdollisuuksiin sekä rajoituksiin. Tämän jälkeen tutkitaan ja luonnostellaan laajennetun solukoon toteuttamisen mahdollisuuksia käyttäen lähtökohtina radioaaltojen etenemismalleja ja erilaisia radioverkon suunnitteluun vaikuttavia tekijöitä. Erityistä huomiota kiinnitetään myös 3GPP:n WCDMA määrityksiin ja niiden synnyttämiin ongelmakohtiin. Lähdeaineistona diplomityön tutkimusosuudessa käytettiin kirjoitushetkellä julkisesti saatavilla olevaa materiaalia, joka koski WCDMA verkkosuunnittelua yleisesti. Tämän lisäksi käytössä oli myös 3GPP organisaation julkaisemat kolmannen sukupolven matkaviestinverkkoja koskevat määritykset. Tutkimus osoitti, että mikäli laajennettu solukoko halutaan ottaa käyttöön WCDMA ympäristössä, on tämänhetkisiin 3GPP määrityksiin tehtävä joitain muutoksia. Nämä muutokset koskevat ensisijaisesti kahta parametria: kierrosaikaa (RTT) sekä etenemisviivettä. Tällä hetkellä nämä kaksi parametria rajoittavat solun suurimman mahdollisen säteen noin 60 kilometriin. Näiden parametrien maksimiarvoa on kasvatettava, jotta se olisi riittävä suurille solusäteille. Näin meneteltäessä 3GPP määritykset eivät aiheuta rajoitusta solusäteelle, vaan rajoitus tulee radioaaltojen vaimenemisesta pitkillä etäisyyksillä. Optimaalisissa olosuhteissa voidaan suoritettujen laskelmien perusteella saavuttaa noin 100 kilometrin solusäde. Tällöin on kuitenkin myös varmistuttava, että paikallinen lainsäädäntö ei rajoita korkeiden antennimastojen käyttöönottoa. 3GPP- määrityksiin tehtävien muutosten voidaan katsoa olevan pakollisia, koska näin meneteltäessä voidaan varmistaa eri valmistajien laitteiden keskinäinen yhteensopivuus myös tulevaisuudessa. Tässä diplomityössä esiteltyjä ratkaisuluonnoksia voidaan käyttää apuna, kun suunnitellaan suuria solusäteitä sisältävää WCDMA radioverkkoa. Loppukäyttäjälle verkko-operaattorin päätös ottaa laajennettu solukoko käyttöön tietää ennen kaikkea peittoalueen parantumista tietyillä alueilla, joilla kuuluvuus on ollut heikko tai sitä ei ole ollut lainkaan

Bit error rate estimation in WiMAX communications at vehicular speeds using Nakagami-m fading model

The wireless communication industry has experienced a rapid technological evolution from its basic first generation (1G) wireless systems to the latest fourth generation (4G) wireless broadband systems. Wireless broadband systems are becoming increasingly popular with consumers and the technological strength of 4G has played a major role behind the success of wireless broadband systems. The IEEE 802.16m standard of the Worldwide Interoperability for Microwave Access (WiMAX) has been accepted as a 4G standard by the Institute of Electrical and Electronics Engineers in 2011. The IEEE 802.16m is fully optimised for wireless communications in fixed environments and can deliver very high throughput and excellent quality of service. In mobile communication environments however, WiMAX consumers experience a graceful degradation of service as a direct function of vehicular speeds. At high vehicular speeds, the throughput drops in WiMAX systems and unless proactive measures such as forward error control and packet size optimisation are adopted and properly adjusted, many applications cannot be facilitated at high vehicular speeds in WiMAX communications. For any proactive measure, bit error rate estimation as a function of vehicular speed, serves as a useful tool. In this thesis, we present an analytical model for bit error rate estimation in WiMAX communications using the Nakagami-m fading model. We also show, through an analysis of the data collected from a practical WiMAX system, that the Nakagami-m model can be made adaptive as a function of speed, to represent fading in fixed environments as well as mobile environments

Radio Channel Characterization for Future Wireless Networks and Applications

The new frontier of Above-6GHz bands is revolutionizing the field of wireless telecommunications, requiring new radio channel models to support the development of future Giga-bit-per-second systems. Recently, deterministic ray-based models as Ray Tracing are catching on worldwide thanks to their frequency-agility and reliable predictions. A modern 3D Ray Tracing developed at University of Bologna has been indeed calibrated and used to investigate the Above-6GHz radio channel properties. As starting point, an item-level electromagnetic characterization of common items and materials has been achieved successfully to obtain information about the complex permittivity, scattering diagrams and even de-polarization effects, both utilizing Vector Spectrum Analyzer (at 7-15GHz) and custom Channel Sounder (at 70GHz). Thus, a complete tuning of the Ray Tracing has been completed for Above-6GHz frequencies. Then, 70GHz indoor doubledirectional channel measurements have been performed in collaboration with TU Ilmenau, in order to attain a multidimensional analysis of propagation mechanisms in time and space, outlining the differences between Below- and Above-6GHz propagation. Furthermore, multi-antenna systems, as Multiple-Input-Multiple- Output (MIMO) and Beamforming have been taken into considerations, as strategic technologies for Above-6GHz systems, focusing on their implementation, limits and differences. Finally, complex system simulations of Space-Division-Multiple- Access (SDMA) networks in indoor scenarios have been tested, to assess the capabilities of Beamforming. In particular, efficient Beam Search and Tracking algorithms have been proposed to assess the impact of interference on Multi-User Beamforming at 70GHz and, also, novel Multi-Beam Beamforming schemes have been tested at 60GHz to investigate diversity strategies to cope with NLOS link and Human Blockage events. Moreover, the novel concept of Ray-Tracing-assisted Beamforming has been outlined, showing that ray-based models represent today the promising key tools to evaluate, design and enhance the future Above-6GHz multi-antenna systems

Uplink MIMO schemes in local area time division duplex system

One of 3rd Generation Partnership Projects's release 9 research areas is deployment and improvement of Long Term Evolutions's Evolved Universal Terrestrial Radio Access interface in local area cells, using time division duplex and 100MHz available bandwidth. For uplink part of this system, we revise and study MIMO algorithms considered in release 8's downlink (Cyclic Delay Diversity and Space-Frequency Block Codes open-loop schemes, Singular Value Decomposition and codebook-based closed-loop schemes), look for new alternatives, and simulate impacts of given scenario - reciprocity, correlated MIMO channels, slow fading etc. As a result, we draw conclusions about advantages of having multiple transmit antennas in User Equipment in contrast with higher price and power consumption

Heterogeneous Acceleration for 5G New Radio Channel Modelling Using FPGAs and GPUs

L'abstract è presente nell'allegato / the abstract is in the attachmen