Entry strategy for Swedish SME in the Nigeria market: challenges, entry mode, and interaction focus.               A case study of TePe AB

Eromosele, Joseph, Agosi, Micheal, Aluebhosele, Ekpen

January 2012

No description available.

Nigeria market

entry mode

exporting

and network relationship

Challenges of the Russian market and their impact upon the selection between exporting, joint ventures and FDI : Study of Swedish enterprises within the automotive industry

Chechina, Elena, Manyashina, Galina

January 2010

Russia is a rapidly growing market with enormous potential for international companies. In many industries competition is underdeveloped as Russian local companies are often unable to satisfy constantly growing demand of the market. On the other hand, international enterprises hesitate to enter the market due to its complexity and difficulties like e.g. bureaucracy and corruption. The aim of the present bachelor thesis is to define main challenges of the Russian market with the help of a modified PESTEL model which emphasizes political, economic, social, and legal aspects of the market. Having identified the main market challenges exporting, joint ventures and foreign direct investments as means of market entry are assessed in terms of coping with these challenges. As an outcome of the theoretical section, a model assessing the chosen entry modes is developed together with a list of challenges of the Russian market. The developed theoretical model is applied to a Swedish automotive industry through conduction of semi-structured interviews with key representatives of a number of Swedish enterprises operating in Russia. After the empirical analysis, the theoretical model is reviewed and the main challenges of the Russian market experienced by the interviewees are stated. Moreover, the most common entry modes within the Swedish automotive industry are identified. This thesis will be applicable both for students who would like to learn about different entry modes and ways of analyzing foreign markets through a theoretical framework, and for Swedish companies that aim to enter the Russian market and need to understand its challenges in order to avoid failures in the initial stage and gain ideas about the most suitable entry mode for them.

Russian market

exporting

FDI

challenges

entry mode

Combined Digital/Wireless Link over the Multi-Mode Fiber with VCSEL using CMOS based Feedforward Equalizer

Maeng, Moonkyun

21 April 2005

In this dissertation, the combined optical link, where the baseband digital signal and wireless signal are transmitted simultaneously over a multi-mode fiber (MMF) using an VCSEL and received through a photoreceiver and a feed forward equalizer (FFE). For this hybrid optical link, a new type of combiner is developed using the multi-layer organic (MLO) process. For the overall link simulation, a rate-equation-based VCSEL model is developed with circuit components. This model describes the high-speed modulation characteristic as well as the thermal effect on the L-I (light vs. bias current) characteristic. Additionally, The FFE is developed to further extend a MMF distance by compensating differential modal delay (DMD) in MMF. Two different implementation approaches are taken for the FFE by passive LC ladder based delay line and active inductance peaking delay line structure. To overcome the voltage headroom limitation of the conventional Gilbert cell architecture, modified Gilbert cell is presented and implemented as a multiplier cell for both FFEs. The FFEs are fully integrated on a single chip and fabricated by a standard 0.18 ?m CMOS process. The developed FFE successfully rebuild the distorted signal form the MMF at 10 Gbps data rate.

VCSEL

Multi-mode fiber

Feedforward equalizer

CMOS

The Growth Mechanism of Inclined AlN Films and Fabrication of Dual Mode Solidly Mounted Resonators

Chen, Cheng-ting

02 August 2010

The 1/4£f dual-mode resonators made from c-axis-oriented aluminum nitride films grown on different conduction material have been studied in this thesis. The RF/DC sputter system is used to grow on layers of reflector. During the porcess, 3.5 pairs of Bragg reflector alternating with W and SiO2 are composed by Si substractor. To achieve 0.999 reflective rate, fabrication parameters are adjusted to make W films become £\-phase structurre. On the other hand, piezoelectric layers as well as reflective layers that using reactive RF magnetron sputtering system and means of off-axis are combined to deposite optimal resonators of shear mode quality factor (Q) resonatros. While changing the substract and target distance between various bottom electrode materials, including Si, W/Si, and Mo/Si could deposit AlN with various c-axis tilting angle which resulted in stimulating longitudinal and shear acoustic waves. Futhermore, the finding is used to discuss the growth mechanism of inclined AlN by TEM. The analysis of various distances of AlN films shows that column inclining angle and XRD-Rocking Curve £s will increase with distance. The quality of shear mode would be better when column and £s are highly shifed. About the influence on AlN deposites, AlN/Si was grown away from the center by 6 cm. AlN/Si column inclining angle is about 20 degree, and RMS could reach 2.63nm beneath. Uner AlN/W/Si, column incling angle is about 30 degree, and £s shift angle 4.14 degree, the shear mode quality factor of freaquency response is obtained to 262. Under AlN/Mo/W/Si, column incling angle would be 25.4 degree, and XRD are better-choosed c-aixsm, £s tilting angle shifs 6.72 degree, and the shear mode quality factor is obtained to 290. Film intersurface appears bigger misfit by TEM to obtain better shear mode.

Shear Mode Quality factor

AlN

Inclined angle

Empirical Mode Decomposition for Noise-Robust Automatic Speech Recognition

Wu, Kuo-hao

25 August 2010

In this thesis, a novel technique based on the empirical mode decomposition (EMD) methodology is proposed and examined for the noise-robustness of automatic speech recognition systems. The EMD analysis is a generalization of the Fourier analysis for processing nonlinear and non-stationary time functions, in our case, the speech feature sequences. We use the intrinsic mode functions (IMF), which include the sinusoidal functions as special cases, obtained from the EMD analysis in the post-processing of the log energy feature. We evaluate the proposed method on Aurora 2.0 and Aurora 3.0 databases. On Aurora 2.0, we obtain a 44.9% overall relative improvement over the baseline for the mismatched (clean-training) tasks. The results show an overall improvement of 49.5% over the baseline for Aurora 3.0 on the high-mismatch tasks. It shows that our proposed method leads to significant improvement.

noise robustness

empirical mode decomposition

speech recognition

Passively Mode-Locked Lasers Using Graphene Based Saturable Absorber

Lin, Shau-Ching

01 August 2011

The graphene-polymer SA thin film using solution blending method and atomic layer graphene as saturable absorber (SA) used to generate femtosecond laser pulse were measured. Stable soliton-like pulses with the pulsewidth of 403 fs and 432 fs, the spectral linewidth of 6.32 nm and 6.16 nm, and the time-bandwidth product of 0.315 and 0.329 using graphene-PVA film and atomic layer graphene as SA were achieved, respectively, in mode-locked Er-doped fiber ring laser. The graphene-PVA SA suffered from larger loss caused by graphene flake aggregating, while the atomic layer graphene had smaller nonsaturable loss which exhibited lower mode locking threshold power. Atomic layer graphene also had stable fabricated process and controllable modulation depth depended on its layer numbers. To compare the mode locking performance of single wall carbon nanotubes (SWCNTs) and graphene SA, the same solution blending fabricated sample was used. Under similar nonsaturable loss and modulation depth, the SWCNTs SA with optimized concentration of 0.5wt% and thickness of 188£gm had shortest pulsewidth of 440 fs and 3-dB spectral linewidth of 6 nm. The shortest pulsewidth of 403 fs and broad spectral linewidth of 6.32 nm was obtained using graphene SA with concentration of 6.25wt% and thickness of 18£gm. Graphene has broad band absorbance and larger modulation depth, the experimental result indicates that graphene SA can generate shorter pulse and has chance to become the potential candidate of SA.

passively mode-locked laser

graphene

saturable absorber

Investigation of allergy biosensor for human IgE detection using Sezawa-mode surface acoustic wave devices

Shen, Jing-yi

09 August 2012

In this study, Sezawa-mode surface acoustic wave (SAW) devices were employed to construct the allergy biosensor. To fabricate Sezawa-mode SAW devices, the RF magnetron sputtering method for the growth of piezoelectric ZnO thin films onto Si3N4/Si is adopted and influences of the sputtering parameters are investigated. The properties of the ZnO thin films are investigated by X-ray diffraction and scanning electron microscopy which reveal a high c-axis-preferred orientation. A back-etched resonator is used in this study. The wet etching of (100)-oriented silicon wafers is used to form a back-side cavity which is used as the sensing area. Low-stress silicon nitride was deposited by low-pressure chemical vapor deposition (LPCVD) as the etching mask for the integrated SAW device. To investigate the sensing characteristics of SAW, gold (Au) layer was initially deposited onto the sensing area of SAW devices as the binding layer in biochemical sensor and the surface of the Au layer was treated with oxygen plasma to enhance the hydrophilic properties of the Au layer. The self assembly monolayers (SAMs) is used to decorate surface of Au layer and the sandwiched enzyme-linked immunosorbent assay is used for detecting the concentration variation of immunoglobulin E (IgE) in human serum. The frequency response is measured using an E5071C network analyzer. The resonance frequency of the Sezawa-mode SAW device is 1.49 GHz. The sensitivities of the Sezawa-mode biosensor is calculated to be 6.64 MHz cm2/ng for human IgE detection.

IgE

allergy biosensor

SAW

Sezawa-mode

ZnO

Vectorial Modal Analysis of 2D Dielectric Waveguides with Simple Orthogonal Bases

Tsao, Shuo-fang

03 July 2004

The dielectric waveguide is an important component used in the optical communication system. In this thesis, we conduct basic research on the propagation constant and the characteristic of the dielectric waveguide. We develop a method to expand 2-D rectangular dielectric waveguide modes with simple orthogonal bases. Furthermore, we improve the convergent rate by expanding waveguide modes with tensor product of properly chosen guiding-mode bases. We first derive the coupled differential equations of the two transverse magnetic field components which satisfy the continuous boundary conditions across all material interfaces. Then we investigate and verify the accuracy of this method on 1-D rectangular waveguide so that we can apply the technique to 2-D rectangular waveguides. By means of linear combination of simple 2-D orthogonal bases, we expand the mode of rectangular dielectric waveguide. Through rigorous mathematical closed-form integration, we obtain the equivalent matrix whose eigenvalues and associated eigenvectors become the mode propagation constants and mode field distribution functions of the underlying 2-D dielectric waveguide. Whenever symmetry exists we can reduce the size of the problem by choosing appropriate boundary conditions in accordance to particular mode polarization desired. This method provides at least four significant digits of propagation constant and detailed field description of the rectangular dielectric waveguide. We believe that it is an effective method for modal analysis of 2-D complex dielectric-waveguides.

mode

Orthogonal

Dielectric

Bases

Waveguides

Vectorial

The Design and Fabrication of Ring Cavity Semiconductor Laser and Filter

Chang, Pai-ying

08 July 2004

This paper presents design and fabrication of ring cavity semiconductor lasers and optical filters with simple fabrication process. A 1.55

Ring Cavity Resonator

Multi-Mode Interference

Design of Decentralized Adaptive Sliding Mode Controllers for Large-Scale Systems with Mismatched Perturbations

Yu, Shih-Shou

13 July 2004

A novel design methodology of a decentralized adaptive sliding mode control scheme for a class of large-scale systems with mismatched disturbances and uncertainties in each subsystem and interconnections is proposed in this thesis. The main idea of this new method is that the design of the switching surface of each subsystem is through the design of a pseudo-feedback controller which can stabilize the dynamics when system is in the sliding mode. The feedback gain of the pseudo controller then becomes a important parameter of switching surface. The proposed controllers of each subsystem contain three parts. The first part is measurable feedback signals, and the second part is an adaptive control mechanism, which is used for overcoming the disturbances and uncertainties of each subsystem and interconnections among subsystems. The information of upper bound of those disturbances and uncertainties are not required. The third part of the decentralized controllers is used for adjusting the convergent rate of state variables of the controlled system. The asymptotical stability is guaranteed for each subsystem even if the mismatched perturbations exist when employing the proposed control scheme. An example is demonstrated for showing the feasibility of the proposed methodology.

Large-scale systems

Mismatched perturbations

Sliding mode