Fundamental Limits on Antenna Size for Frequency and Time Domain Applications

Yang, Taeyoung

15 October 2012

As ubiquitous wireless communication becomes part of life, the demand on antenna miniaturization and interference reduction becomes more extreme. However, antenna size and performance are limited by radiation physics, not technology. In order to understand antenna radiation and energy storage mechanisms, classical and alternative viewpoints of radiation are discussed. Unlike the common sense of classical antenna radiation, it is shown that the entire antenna fields contribute to both radiation and energy storage with varying total energy velocity during the radiation process. These observations were obtained through investigating impedance, power, the Poynting vector, and energy velocity of a radiating antenna. Antenna transfer functions were investigated to understand the real-world challenges in antenna design and overall performance. An extended model, using both the singularity expansion method and spherical mode decomposition, is introduced to analyze the characteristics of various antenna types including resonant, frequency-independent, and ultra-wideband antennas. It is shown that the extended model is useful to understand real-world antennas. Observations from antenna radiation physics and transfer function modeling lead to both corrections and extension of the classical fundamental-limit theory on antenna size. Both field and circuit viewpoints of the corrected limit theory are presented. The corrected theory is extended for multi-mode excitation cases and also for ultra-wideband and frequency-independent antennas. Further investigation on the fundamental-limit theory provides new innovations, including a low-Q antenna design approach that reduces antenna interference issues and a generalized approach for designing an antenna close to the theoretical-size limit. Design examples applying these new approaches with simulations and measurements are presented. The extended limit theory and developed antenna design approaches will find many applications to optimize compact antenna solutions with reduced near-field interactions. / Ph. D.

Antenna Radiation Physics

Near-Field Interaction

Ultra-Wideband Antenna

Antenna Transfer Function

Fundamental-Limit Theory on Antenna

A Parametric Study of the Effect of Fire Source Elevation in a Compartment

Mounaud, Laurent Georges

07 March 2005

The objective of the present study was to acquire a better understanding of parameters controlling the species generation and transport from compartment fires. The experiments were performed in a half-scale ISO 9705 compartment and a 6.1 m long hallway connected in a head-on configuration. The buoyancy driven propane fire was provided by a burner and a continuous gaseous fuel supply system. All the measurements were obtained during the steady state of the fire. The ventilation conditions were fixed and three different fire source elevations were studied for heat release rates ranging from 20 kW to 150kW. The species yields were obtained from performing detailed mapping measurements at the compartment and hallway exit planes. The measurements included local specie mole fractions of oxygen, carbon dioxide, carbon monoxide and unburned hydrocarbons. The local temperature and the local pressure (for local gas velocity calculations) were also measured. In addition, visual observations of the flow dynamic were performed through a window and the vents to give useful insights and lead to a better understanding of the combustion process. The data obtained from the species generation study was analyzed using previously developed methods. The method based on equivalence ratio was presented and determined inappropriate for the present study where the global equivalence ratio was not equal to the plume equivalence ratio due to the complexity of the fire dynamic taking place. The method consisting of correlating the species yields based on the combustion within the compartment as a function of a non dimensional heat release rate allowed qualitative conclusions to be made. The non-dimensional heat release rate was based on the fuel load and the geometric parameters of the compartment. This methodology revealed similarities in the species production between the three fire source elevations investigated. A correlation of the data was obtained based on experimental data. The transport of species to remote locations was studied for the three fire source elevations and fixed ventilation conditions. Species mole fractions and yields were obtained at the compartment exit plane (compartment/hallway interface) and at the hallway exit plane. The results were compared for various heat release rates and showed differences for some scenarios attributed to mixing along the hallway and oxidation reactions outside the compartment. / Master of Science

Carbon monoxide

species generation

building fires

burner elevation

species transport

near field air entrainment

Implementation and Development of an Eulerian Spray Model for CFD simulations of diesel Sprays

Pandal Blanco, Adrián

01 September 2016

[EN] The main objective of this work is the modeling of diesel sprays under engine conditions, including the atomization, transport and evaporation processes pivotal in the diesel spray formation and its development. For this purpose, an Eulerian single fluid model, embedded in a RANS environment, is implemented in the CFD platform OpenFOAM. The modeling approach implemented here is based on the ⅀-Y model. The model is founded on the assumption of flow scales separation. In actual injection systems, it can be assumed that the flow exiting the nozzle is operating at large Reynolds and Weber numbers and thus, it is possible to assume a separation of features such as mass transport (large scales) from the atomization process occurring at smaller scales. The liquid/gas mixture is treated as a pseudo-fluid with variable density and which flows with a single velocity field. Moreover, the mean geometry of the liquid structures can be characterized by modeling the mean surface area of the liquid-gas interphase per unit of volume. Additionally, an evaporation model has been developed around the particular characteristics of the current engine technologies. This means that vaporization process is limited by fuel-air mixing rate and fuel droplets evaporate as long as there is enough air for them to heat up and vaporize. Consequently, the evaporation model is based on the Locally Homogeneous Flow (LHF) approach. Under the assumption of an adiabatic mixing, in the liquid/vapor region, the spray is supposed to have a trend towards adiabatic saturation conditions and to determine this equilibrium between phases Raoult's ideal law is considered. Finally, the spray model is coupled with an advanced combustion model based on approximated diffusion flames (ADF), which reduces the computational effort especially for complex fuels and is a natural step for modeling diesel sprays. First, the model is applied to a basic external flow case under non-vaporizing conditions, extremely convenient due to both the experimental database available and the symmetric layout which allows important simplification of the modeling effort. Good agreement between computational results and experimental data is observed, which encourages its application to a more complex configuration. Secondly, the model is applied to the "Spray A" from the Engine Combustion Network (ECN), under non-vaporizing conditions, in order to reproduce the internal structure of diesel sprays as well as to produce accurate predictions of SMD droplets sizes. Finally, vaporizing "Spray A" studies are conducted together with the baseline reacting condition of this database. The calculated spray penetration, liquid length, spray velocities, ignition delay and lift-off length are compared with experimental data and analysed in detail. / [ES] El objetivo principal de este trabajo es el modelado de chorros diésel en condiciones de motor, incluyendo los fenómenos de atomización, transporte y evaporación fundamentales en la formación y desarrollo del chorro. Para este fin, se implementa un modelo de spray euleriano de tipo monofluido en un entorno RANS en la plataforma CFD OpenFOAM. El enfoque de modelado aplicado aquí sigue la idea de un modelo del tipo ⅀-Y. El modelo se fundamenta en la hipótesis de separación de escalas del flujo. En los sistemas de inyección actuales, es posible asumir que el flujo que sale de la tobera opera a altos números de Reynolds y Webber y por tanto, es posible considerar la independencia de fenómenos como el transporte de masa (grandes escalas del flujo) de los procesos de atomización que ocurren a escalas menores. La mezcla líquido/gas se trata como un pseudo-fluido con densidad variable y que fluye según un único campo de velocidad. Además, la geometría promedio de las estructuras de líquido se puede caracterizar mediante el modelado de la superficie de la interfase líquido/gas por unidad de volumen. Completando el modelo de chorro, se ha desarrollado un modelo de evaporación alrededor de las características particulares de las tecnologías actuales de los motores. Esto supone que el proceso de evaporación está controlado por mezcla aire-combustible y las gotas de combustible se evaporan siempre que exista suficiente aire para calentarlas y evaporarlas. Debido a esto, el modelo de evaporación implementado está basado en el enfoque de Flujos Localmente Homogéneos (LHF). Considerando una mezcla adiabática, en la región líquido/vapor, se supone que el chorro tiende a las condiciones adiabáticas de saturación y para determinar este equilibrio entre fases, se utiliza la ley ideal de Raoult. Finalmente, el modelo de chorro se acopla con un modelo avanzado de combustión basado en llamas de difusión aproximadas (ADF), que reduce el coste computacional especialmente para combustibles complejos y supone el paso lógico en el desarrollo del modelo para simular chorros diesel. En primer lugar, el modelo se aplica al cálculo de un caso básico de flujo externo no evaporativo, muy adecuado tanto por la extensa base de datos experimentales disponible como por la simetría geométrica que presenta, permitiendo una importante simplificación de la simulación. Los resultados obtenidos presentan un buen acuerdo con los experimentos, lo cual estimula su aplicación en configuraciones más complejas. En segundo lugar, el modelo se aplica al cálculo del "Spray A" del Engine Combustion Network (ECN), no evaporativo, para reproducir la estructura interna del chorro diesel así como predecir tamaños de gota (SMD) de forma precisa. Finalmente, se realizan estudios evaporativos del "Spray A" junto con la condición nominal reactiva de esta base de datos. La penetración de vapor, la longitud líquida, velocidad, el tiempo de retraso y la longitud de despegue de llama calculados se comparan con los datos experimentales y se analizan en detalle. / [CA] L'objectiu principal d'aquest treball és el modelatge de dolls dièsel en condicions de motor, incloent els fenòmens d'atomització, transport i evaporació fonamentals en la formació i desenvolupament del doll. Amb aquesta finalitat, s'implementa un model de doll eulerià de tipus monofluid en un entorn RANS a la plataforma CFD OpenFOAM. L'enfocament de modelatge aplicat ací segueix la idea d'un model del tipus ⅀-Y. El model es fonamenta en la hipòtesi de separació d'escales del flux. En els sistemes d'injecció actuals, és possible assumir que el flux que surt de la tovera opera a alts nombres de Reynolds i Webber, i per tant és possible considerar la independència de fenòmens com el transport de massa (grans escales del flux) dels processos d'atomització que ocorren a escales menors. La mescla líquid / gas es tracta com un pseudo-fluid amb densitat variable i que flueix segons un únic camp de velocitat. A més, la geometria mitjana de les estructures de líquid es pot caracteritzar mitjançant el modelatge de la superfície de la interfase líquid / gas per unitat de volum. Completant el model, s'ha desenvolupat un model d'evaporació al voltant de les característiques particulars de les tecnologies actuals dels motors. Això suposa que el procés d'evaporació està controlat per la mescla aire-combustible i les gotes de combustible s'evaporen sempre que hi hagi suficient aire per escalfar i evaporar. A causa d'això, el model d'evaporació implementat està basat en el plantejament de fluxos Localment Homogenis (LHF). Considerant una mescla adiabàtica, a la regió líquid / vapor, se suposa que el doll tendeix a les condicions adiabàtiques de saturació i per determinar aquest equilibri entre fases, s'utilitza la llei ideal de Raoult. Finalment, el model de doll s'acobla amb un model avançat de combustió basat en flamelets de difusió aproximades (ADF), que redueix el cost computacional especialment per a combustibles complexos i suposa el pas lògic en el desenvolupament del model per simular dolls dièsel. En primer lloc, el model s'aplica al càlcul d'un cas bàsic de flux extern no evaporatiu, molt adequat tant per l'extensa base de dades experimentals disponible com per la simetria geomètrica que presenta, permetent una important simplificació de la simulació. Els resultats obtinguts presenten un bon acord amb els experiments, la qual cosa estimula la seva aplicació en configuracions més complexes. En segon lloc, el model s'aplica al càlcul del "Spray A" no evaporatiu de la xarxa Engine Combustion Network (ECN), per reproduir l'estructura interna del doll dièsel així com predir mides de gota (SMD) de forma precisa. Finalment, es realitzen estudis evaporatius del "Spray A" juntament amb la condició nominal reactiva d'aquesta base de dades. La penetració de vapor, la longitud líquida, velocitat, el temps de retard i la longitud d'enlairament de flama calculats es comparen amb les dades experimentals i s'analitzen en detall. / Pandal Blanco, A. (2016). Implementation and Development of an Eulerian Spray Model for CFD simulations of diesel Sprays [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/68490

Diesel spray

Eulerian modeling

CFD

OpenFOAM

Atomization

Near-field

Evaporation

MAQUINAS Y MOTORES TERMICOS

Biological Imaging with a Near-Field Optical Setup.

Denyer, Morgan C.T., Micheletto, R., Nakajima, K., Hara, M., Okazaki, S.

January 2003

No / Noncontact scanning near-field optical microscope (SNOM) systems can be used to optically resolve samples in atmospheric conditions at theoretical resolutions comparable to those of transmission electron microscope and atomic force microscope systems. SNOM systems are also increasingly used to image biological samples. In this study we custom built a SNOM system with the aim of further demonstrating the potential applications of near-field optical examination of biological material. In this study we were able to image both fixed whole-cell samples in air and liquid environments and live whole-cell samples in liquids. The images acquired were of a relatively low resolution, but this work has shown that SNOM systems can be used to monitor the dynamics of living cells at subnanometric resolutions in the z axis and for fluorescent imaging of whole cells in a liquid medium.

NSOM

SNOM

Near field

Optical microscope

Fibers

Biological sample

Fluorescent

Imaging

Live samples

Dynamic

Wideband loaded wire bow-tie antenna for near field imaging using genetic algorithms

Chung, Siau Wei Jonis, Abd-Alhameed, Raed, See, Chan H., Excell, Peter S.

January 2008

Yes / The potentially broad application area in engineering design using Genetic Al- gorithm (GA) has been widely adopted by many researchers due to its high consistency and accuracy. Presented here is the initial design of a wideband non-dispersive wire bow-tie antenna using GA for breast cancer detection applications. The ultimate goal of this design is to achieve minimal late-time ringing but at higher frequencies such as that located from 4 to 8 GHz, in which is desire to penetrate human tissue for near field imaging. Resistively loading method to reduce minimal ringing caused by the antenna internal reflections is implemented and discussed when the antenna is located in free space and surrounded by lossy medium. Results with optimised antenna geometry and di®erent number of resistive loads are presented and compared with and without existence of scatterers.

Bow-tie antennas

Near field imaging

Genetic algorithms

Breast cancer

Detection

Wideband antenna

Tip-enhanced near-field optical microscopy

Neacsu, Corneliu Catalin

14 February 2011

Die vorliegende Arbeit beschreibt neue Entwicklungen im Verständnis und in der Umsetzung der optischen Nahfeldmikroskopie (scattering - type scanning near-field optical microscopy, s-SNOM) für die lineare und nichtlineare optische Bildgebung mit ultrahoher Auslösung und Empfindlichkeit. Die fundamentalen Mechanismen, die der Feldverstärkung am Ende von ultrascharfen metallischen Spitzen zugrunde liegen, werden systematisch behandelt. Die plasmonischen Eigenschaften der Spitze wurden erstmalig beobachtet, und ihre Bedeutung für die optische Kopplung zwischen Spitze und Probe sowie für die sich ergebende Einengung des Nahfeldes wird diskutiert. Ein aperturloses Nahfeldmikroskop für die spitzenverstärkte Ramanspektroskopie (tip-enhanced Raman spectroscopy, TERS) wurde entwickelt. Die Grundlagen der TERS und die wesentliche Rolle des plasmonischen Verhaltens der Spitze sowie die klare Unterscheidung von Nahfeld-Ramansignatur und Fernfeld-Abbildungsartefakten werden beschrieben. Nahfeld Raman Verstärkungsfaktoren von bis zu 10 wurden erreicht, was einer Feldverstärkung von bis zu 130 entspricht und Raman-Messungen bis auf Einzel-Molekül-Niveau ermöglichte. Die optische Frequenzverdopplung (second harmonic generation, SHG) an einzelnen Spitzen wurde untersucht. Aufgrund ihrer teilweise asymmetrischen Nanostruktur erlauben die Spitzen eine klare Unterscheidung von lokalen Oberflächen und nichtlokalen Volumenbeiträgen zur nichtlinearen Polarisation sowie die Analyse ihrer Polarisations- und Emissions-Auswahlregeln. Die spitzenverstärkte Frequenzverdopplungs-Spektroskopie und die räumlich hoch aufgelöste Abbildung auf Basis des dielektrischen Kontrasts werden demonstriert. Mit Hilfe einer phasen-sensitiven, Selbst-homodyn-Frequenzverdopplungs-s-SNOM-Abbildungsmethode kann die Oberflächen-Struktur der intrinsischen 180-Domänen im hexagonal multiferroischen YMnO aufgelöst werden. / This thesis describes the implementation of scattering-type near-field optical microscopy (s-SNOM) for linear and nonlinear optical imaging. The technique allows for optical spectroscopy with ultrahigh spatial resolution. New results on the microscopic understanding of the imaging mechanism and the employment of s-SNOM for structure determination at solid surfaces are presented. The method relies on the use of metallic probe tips with apex radii of only few nanometers. The local-field enhancement and its dependence on material properties are investigated. The plasmonic character of Au tips is identified and its importance for the optical tip-sample coupling and subsequent near-field confinement are discussed. The experimental results offer valuable criteria in terms of tip-material and structural parameters for the choice of suitable tips required in s-SNOM. An near-field optical microscope is developed for tip-enhanced Raman spectroscopy (TERS) studies. The principles of TERS and the role of the tip plasmonic behavior together with clear distinction of near-field Raman signature from far-field imaging artifacts are described. TERS results of monolayer and submonolayer molecular coverage on smooth Au surfaces are presented. Second harmonic generation (SHG) from individual tips is investigated. As a partially asymmetric nanostructure, the tip allows for the clear distinction of local surface and nonlocal bulk contributions to the nonlinear polarization and the analysis of their polarization and emission selection rules. Tip-enhanced SH microscopy and dielectric contrast imaging with high spatial resolution are demonstrated. SHG couples directly to the ferroelectric ordering in materials and in combination with scanning probe microscopy can give access to the morphology of mesoscopic ferroelectric domains. Using a phase sensitive self-homodyne SHG s-SNOM imaging method, the surface topology of 180 intrinsic domains in hexagonal multiferroic YMnO is resolved.

Nahfeld_optische_frequenzverdopplung

s-SNOM

TERS

near-field SHG

s-SNOM

TERS

530 Physik

29 Physik, Astronomie

UH 6330

UM 3300

ddc:530

Planar Lensing Lithography: Enhancing the Optical Near Field.

Melville, David O. S.

January 2006

In 2000, a controversial paper by John Pendry surmised that a slab of negative index material could act as a perfect lens, projecting images with resolution detail beyond the limits of conventional lensing systems. A thin silver slab was his realistic suggestion for a practical near-field superlens - a 'poor-mans perfect lens'. The superlens relied on plasmonic resonances rather than negative refraction to provide imaging. This silver superlens concept was experimentally verified by the author using a novel near-field lithographic technique called Planar Lensing Lithography (PLL), an extension of a previously developed Evanescent Near-Field Optical Lithography (ENFOL) technique. This thesis covers the computational and experimental efforts to test the performance of a silver superlens using PLL, and to compare it with the results produced by ENFOL. The PLL process was developed by creating metal patterned conformable photomasks on glass coverslips and adapting them for use with an available optical exposure system. After sub-diffraction-limited ENFOL results were achieved with this system additional spacer and silver layers were deposited onto the masks to produce a near-field test platform for the silver superlens. Imaging through a silver superlens was achieved in a near-field lithography environment for sub-micron, sub-wavelength, and sub-diffraction-limited features. The performance of PLL masks with 120-, 85-, 60-, and 50-nm thick silver layers was investigated. Features on periods down to 145-nm have been imaged through a 50-nm thick silver layer into a thin photoresist using a broadband mercury arc lamp. The quality of the imaging has been improved by using 365 nm narrowband exposures, however, resolution enhancement was not achieved. Multiple layer silver superlensing has also been experimentally investigated for the first time; it was proposed that a multi-layered superlens could achieve better resolution than a single layer lens for the same total silver thickness. Using a PLL mask with two 30-nm thick silver layers gave 170-nm pitch sub-diffraction-limited resolution, while for a single layer mask with the same total thickness (60 nm) resolution was limited to a 350-nm pitch. The proposed resolution enhancement was verified, however pattern fidelity was reduced, the result of additional surface roughness. Simulation and analytical techniques have been used to investigate and understand vi ABSTRACT the enhancements and limitations of the PLL technique. A Finite-Difference Time- Domain (FDTD) tool was written to produce full-vector numerical simulations and this provided both broad- and narrowband results, allowing image quality as a function of grating period to be investigated. An analytical T-matrix method was also derived to facilitate computationally efficient performance analysis for grating transmission through PLL stacks. Both methods showed that there is a performance advantage for PLL over conventional near-field optical lithography, however, the performance of the system varies greatly with grating period. The advantages of PLL are most prominent for multi-layer lenses. The work of this thesis indicates that the utilisation of plasmonic resonances in PLL and related techniques can enhance the performance of near-field lithography.

planar lensing lithography

near field imaging

superlens

perfect lens

near field

lithography

FDTD

negative index material

contact lithography

diffraction limit

sub-diffraction-limited imaging

silver lens

planar lens

finite difference time domain simulation

Design and development of novel radio frequency sensors based on far-field and near-field principles

Thai, Trang Thuy

13 January 2014

The objective of this work is to enhance and advance sensing technologies with the design and development of novel radio frequency (RF) sensors based on far-field and near-field principles of the electromagnetic (EM) resonances. In the first part of this thesis, original design and development of a passive RF temperature sensor, a passive RF strain sensor, and a passive RF pressure sensor are presented. The RF temperature sensor is presented in Chapter 3. It is based on split ring resonators loaded with bimorph cantilevers. Its operating principles and equivalent circuits are discussed in Chapter 4, where the design concept is illustrated to be robust and highly adaptable to different sensing ranges, environments, and applicable to other type of sensing beyond temperatures. The passive RF strain sensor, based on a patch antenna loaded with a cantilever-integrated open loop, is presented in Chapter 5, where it is demonstrated to have the highest strain sensitivity in the same remote and passive class of sensors in the state-of-the-art. Chapter 6 describes the passive RF pressure sensor, which is based on a dual-band stacked-patch antenna that allows both identification and sensing to be embedded in its unique dual resonant responses. In the second part of this thesis, an original and first-of-its-kind RF transducer is presented that enables non-touch sensing of human fingers within 3 cm of proximity (based on one unit sensor cell). The RF transducer is based on a slotted microstrip patch coupled to a half-wavelength parallel-coupled microstrip filter operating in the frequency range of 6 – 8 GHz. The sensing mechanism is based on the EM near-field coupling between the resonator and the human finger. Fundamentally different from the electric field capacitive sensing, this new method of sensing, the first of its kind, based on near-field interference that produces a myriad of nonlinearities in the sensing response, can introduce new capabilities for the interface of electronic displays (the detection is based on pattern recognition). What set this sensor and its platform apart from previous proximity sensors and microwave sensing platforms is the low profile planar structure of the system, and its compatibility with mobile applications. The thesis provides both breadth and depth in the proposed design and development and thus presenting a complete research in its contributions to RF sensing.

Radio frequency sensing

Chipless

Remote

Resonators

Long range

Pressure sensor

Temperature sensor

Strain sensor

Proximity sensor

Near-field

Far-field

Radio detectors

Near field communication

Radio frequency identification systems

Electromagnetic fields

Legal Aspects of Electronic Money: Financial Inclusion Instrument. The Peruvian Model / Aspectos Jurídicos del Dinero Electrónico: Instrumento de Inclusión Financiera. El Modelo Perú

Cipriano Pirgo, Manuel

10 April 2018

In the first part, the background of electronic money is explained, then it provides a detailed account of how it has evolved in Africa, where there has been a huge success, given the advantages and applications it has, and how it has been working. Elsewhere, other models of electronic money that are emerging in the world, such as Google Wallet, Apple Pay, and experiences in Peru as Wanda and Your Mobile Money.In the third part, some aspects of the recent regulation of electronic money in Peru are required by Act No. 29985, which regulates the basic characteristics of electronic money. Finally, it details the recent proposal that ASBANC has been working on through the Model Peru, as well as technological and regulatory risks that still must be faced. / En una primera parte se explica los antecedentes del dinero electrónico, luego se pasa a exponer detalladamente de cómo éste se ha desarrollado en África, donde ha tenido un enorme éxito dadas las ventajas y aplicaciones que tiene, y la manera como viene funcionando. En otra parte se señalan otros modelos de dinero electrónico que vienen surgiendo en el mundo, tales como Google Wallet, Apple Pay, y experiencias en Perú como el de Wanda y Tu Dinero Móvil.En la tercera parte se precisan algunos aspectos de la reciente regulación del dinero electrónico en el Perú, mediante la Ley Nº 29985, que regula las características básicas del Dinero Electrónico. Finalmente se detalla la reciente propuesta que viene trabajando ASBANC, a través del Modelo Perú, así como los riesgos tecnológicos y regulatorios que aún se debe afrontar.

Electronic Money

Financial Inclusion

Electronic-Banking

Mobile-Banking

Near Field Communication

Companies Issuing Electronic Money

Model Peru

Dinero Electrónico

Inclusión Financiera

Banca Electrónica

Banca Móvil

Near Field Communication

Empresas Emisoras De Dinero Electrónico

Modelo Perú

Near Field Communication : En studie om NFC-teknikens möjliga användningsområden och utveckling inom sociala medier / Near Field Communication : A study on the NFC technology’s possible field of application and its development within social media

Hamberg, Lisa, Huber, Christine

January 2014

In this report we examine the NFC (Near Field Communication) technology as far as the development has come until today. We adress different use areas and explain the technical funcionality. By using data collection methods as a specialist interview and also a survery we want to detect potential risks and safety-issues in implementation of the new technology. Our main-focus in this report is to examine how NFC can play an important role in the developement of social interaction and social media. By compiling our data and research materials we will analyze and present a report conslusion. In our conclusion we will introduce our thoughts about the technology as NFC gets more and more common in our physical lives and also propose further research-areas. We will share potential risks about the technology as it is developing to alert future researchers and developers, but also pay attention to the opportunities the technology may bring. / Med vår studie har vi valt att undersöka tekniken NFC (eng. Near Field Communication) så långt som utvecklingen har kommit i dagsläget. Vi redogör kring vad det finns för olika användningsområden och hur NFC fungerar ur ett tekniskt perspektiv. Genom att intervjua en person som arbetar nära tekniken samt utföra en enkätundersökning vill vi upptäcka potentiella säkerhetsrisker som medföljer implementeringen av tekniken. Studiens huvudfokus är att undersöka hur och om NFC kan ha en viktig roll i utvecklingen och framtiden för sociala medier och interaktion. Med den data vi samlar in under studiens gång kommer vi analysera, diskutera och komma fram till en slutsats. Vi kommer att delge våra tankar kring teknologin då den blir mer och mer vanlig i våra fysiska liv och föreslå vidare forskningsområden. Vi vill uppmärksamma framtida forskare och utvecklare av NFC om potentiella risker som tekniken medför, men också de möjligheter som tekniken öppnar upp.

NFC

social media

social interaktion

smarttelefoner

trådlös kommunikation

NFC-taggar

Near Field Communication

NFC

social media

social interaction

smartphones

wireless communication

NFC-tags

Near Field Communication

Media and Communication Technology

Medieteknik