Tunable RF MEMS bandpass filter with coupled transmission lines

Elfergani, Issa T., Hussaini, Abubakar S., Rodriguez, Jonathan, Marques, P., Abd-Alhameed, Raed

January 2015

No / Passive and active devices are essential devices in mobile and base stations’ transceiver. Consequently, these devices dominated the large part of the PCB of the today’s transceiver. However, the tomorrow’s mobile terminals without circuit tunability would be extremely large in size to accommodate present and future radio access technologies (RATs). The stand-alone transceiver for one single RAT is comprised of single passive and active devices and adding two or more RATs for the same transceiver would require adding two or more devices, since all of these RATs standards work on different frequency bands. Apparently, without tunability approach, this will increase the complexity of the system design and will cover a large part of the circuit space leading to power consumptions, loss which results to the poor efficiency of the transceiver. In this work, a miniaturized RF MEMS tunable bandpass is developed to operate in the frequency range from 1.8 to 2.6 GHz.

Coupled lines filter

RF MEMS capacitor

Radio access technologies

RAT

Physical Layer Algorithms for Reliability and Spectral Efficiency in Wireless Communications

Ankarali, Zekeriyya Esat

15 November 2017

Support of many different services, approximately 1000x increase of current data rates, ultra-reliability, low latency and energy/cost efficiency are among the demands from upcoming 5G standard. In order to meet them, researchers investigate various potential technologies involving different network layers and discuss their trade-offs for possible 5G scenarios. Waveform design is a critical part of these efforts and various alternatives have been heavily discussed over the last few years. Besides that, wireless technology is expected to be deployed in many critical applications including the ones involving with daily life activities, health-care and vehicular traffic. Therefore, security of wireless systems is also crucial for a reliable and confidential deployment. In order to achieve these goals in future wireless systems, physical layer (PHY) algorithms play a vital role not only in waveform design but also for improving security. In this dissertation, we draft the ongoing activities in PHY in terms of waveform design and security for providing spectrally efficient and reliable services considering various scenarios, and present our algorithms in this direction. Regarding the waveform design, orthogonal frequency division multiplexing (OFDM) is mostly considered as the base scheme since it is the dominant technology in many existing standards and is also considered for 5G new radio. We specifically propose two approaches for the improvement of OFDM in terms of out-of-band emission and peak to average power ratio. We also present how the requirements of different 5G RAN scenarios reflect on waveform parameters and explore the motivations behind designing advanced frames that include multiple waveforms with different parameters, referred to as numerologies by the 3GPP community, as well as the problems that arise with such coexistence. On the security aspect, we firstly consider broadband communication scenarios and propose practical security approaches that suppress the cyclic features of OFDM and single carrier-frequency domain equalization based waveforms and remove their vulnerability to the eavesdropping attacks. Additionally, an authentication mechanism in PHY is presented for wireless implantable medical devices. Thus, we address the security issues for two critical wireless communication scenarios in PHY to contribute a confidential and reliable deployment of wireless technologies in the near future.

5G

Interference Alignment

OFDM

OOBE

PAPR

Physical Layer Security

Radio Access Technologies

Waveform

WBANs

Electrical and Computer Engineering

Εκτίμηση παραμέτρων ποιότητας εξυπηρέτησης (QoS) σε εφαρμογές Voice Over IP (VoIP) μέσω διαφορετικών τεχνολογιών ευρυζωνικής πρόσβασης

Ζήνωνος, Ζήνων

25 January 2010

Σκοπός της παρούσας διπλωματικής εργασίας ήταν η μελέτη των παραμέτρων που επηρεάζουν την ποιότητα εξυπηρέτησης (QoS – Quality of Service) των εφαρμογών VoIP μέσω των διαφόρων τεχνολογιών ευρυζωνικής πρόσβασης. / Aim of the present diplomatic assigment was the study of parameters that affect the quality of service (QoS) of VoIP applications via the various broadband access technologies.

Διαδίκτυο

621.385

Voice over IP (VoIP)

Quality of Service (QoS)

Broadband access technologies

Internet

Virtual world accessibility: a multitool approach

Kruger, Rynhardt Pieter

12 1900

Thesis (MSc)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Computer-based virtual worlds are increasingly used for activities which previously required physical environments. However, in its mainstream form, such a virtual world provides output on a graphical display and is thus inaccessible to a blind user. To achieve accessibility for blind users, an alternative to graphical output must be used. Audio and text are two output methods that can be considered. However, when using audio, care must be taken not to overload the audio channel. Channel overloading is possible with audio since it is not a selective output medium like the visual channel, that is, the user cannot choose what he/she wants to hear. Text should also be treated as audio, since a blind user consumes textual information as synthesized speech. In this research we discuss one possible solution to the problem of channel overloading, by the use of multiple exploration and navigation tools. These tools should allow the user to shape the information provided as audio output. Specially, we discuss the development of a virtual world client called Perspective, enabling non-visual access to virtual worlds by the use of multiple navigation and exploration tools. Perspective also serves as a framework for tool implementation and evaluation. Finally we give recommendations for improvements to current virtual world building practices and protocols, as to work toward an accessibility standard. / AFRIKAANSE OPSOMMING: Rekenaargebaseerde virtuele wêrelde word toenemend gebruik vir aktiwiteite wat voorheen fiesiese omgewings benodig het. Tog verskaf so 'n virtuele wêreld, in sy standaard vorm, afvoer as 'n grafiese beeld en is dus ontoeganklik vir 'n blinde gebruiker. Om toeganklikheid vir blinde gebruikers te bewerkstellig, moet 'n alternatief vir die grafiese beeld gebruik word. Klank en teks is twee alternatiewe wat beskou kan word. Tog moet klank versigtig gebruik word, aangesien die klankkanaal oorlaai kan word. Die klankkanaal kan oorlaai word aangesien dit nie 'n selektiewe kanaal soos die visuele kanaal is nie, met ander woorde, die gebruiker kan nie kies wat hy/sy wil hoor nie. Teks moet ook as klank beskou word, aangesien 'n blinde gebruiker teks in die vorm van gesintetiseerde spraak inneem. Met hierdie navorsing bespreek ons een oplossing vir die probleem van kanaaloorlading, deur die gebruik van verskeie navigasie- en verkenningsgereedskapstukke. Hierdie gereedskapstukke behoort die gebruiker in staat te stel om die inligting wat as klank oorgedra word, te bepaal. Ons bespreek spesi ek die ontwikkeling van 'n virtuele wêreld-kliënt genaamd Perspective, wat nie-visuele toegang tot virtuele wêrelde bewerkstellig deur die gebruik van meervoudige navigasie- en verkenningsgereedskapstukke. Perspective dien ook as 'n raamwerk vir die ontwikkeling en evaluering van gereedskapstukke. Laastens verskaf ons voorstelle vir verbeteringe van die boutegnieke en protokolle van huidige virtuele wêrelde, as eerste stap na 'n toeganklikheidsstandaard vir virtuele wêrelde.

Virtual reality -- Blind users

Virtual reality -- Audio applications

Virtual reality -- Multiple tools

Computer systems -- Channel overload

UCTD

Blind -- Services for

Access technologies