A Conceptual UX-aware Model of Requirements

User eXperience (UX) is becoming increasingly important for success of software products. Yet, many companies still face various challenges in their work with UX. Part of these challenges relate to inadequate knowledge and awareness of UX and that current UX models are commonly not practical nor well integrated into existing Software Engineering (SE) models and concepts. Therefore, we present a conceptual UX-aware model of requirements for software development practitioners. This layered model shows the interrelation between UX and functional and quality requirements. The model is developed based on current models of UX and software quality characteristics. Through the model we highlight the main differences between various requirement types in particular essentially subjective and accidentally subjective quality requirements. We also present the result of an initial validation of the model through interviews with 12 practitioners and researchers. Our results show that the model can raise practitioners' knowledge and awareness of UX in particular in relation to requirement and testing activities. It can also facilitate UX-related communication among stakeholders with different backgrounds.Comment: 6th International Working Conference on Human-Centred Software Engineerin

Hebrew Information Structure

This paper will examine information structure used in Modern Hebrew, a Semitic language spoken in Israel. More specifically, the study will look into the methods used by Modern Hebrew native speakers to differentiate between old (active) information and new information in spontaneous speech. The study will offer new insights to different constructions of information structure, relating to active and new information and the use of definite or finite forms, in the spontaneous speech of Modern Hebrew, as well as general insights into narrative discourse and information structure. The study conducted in this paper further proves existing theories about information structure and reasoning behind constructions used by speakers of different languages. Further this paper relates the analysis of the specific strategies applied by Modern Hebrew native speakers to construct a narrative to convey information in a desired way and gives some indication of the method used

Digital Power Detector for WCDMA Transmitter

A 3G mobile phone must have the ability to control its output power with high precision. A power detector is used to measure the actual power outputted by the power amplifier to the antenna. With higher data rates the traditional implementations with peak detectors have become very difficult to use, which is why true RMS detectors are needed. In this thesis the digital part of a true RMS detector for W-CDMA has been designed. The analog parts of the power detector form a quadrature demodulator that transforms the radio signal down to DC where it is occupies a band from 0 to 2 MHz. The measured power amplifier output signal is sampled at 1 MHz which prohibits direct calculation of the RMS voltage in the detector. Instead the detector uses the wave form generator output as a reference to determine the amplification in the transmitter chain which can then be used to find the output power (wave form generator output has constant known power). This requires time alignment of the two signals which is done using a least mean square method of correlation. Using the reference up-sampled to 104 MHz allows very good accuracy despite the low sample rate of the power amplifier signal. To overcome distortion in the power amplifier an additional distortion reducing algorithm has been developed. An estimate of the output power can be delivered after 100 μs and has a standard deviation of its error of 0.05 dB. The error from changing modulation type is limited to a maximum 0.04 dB, well below the specified 0.1 dB. The solution is accurate and modulation independent

Estimating integrated water vapor trends from VLBI, GPS,and numerical weather models: sensitivity totropospheric parameterization

©2018. American Geophysical UnionIn this study, we estimate integrated water vapor (IWV) trends from very long baseline interferometry (VLBI) and global navigation satellite systems (GNSS) data analysis, as well as from numerical weather models (NWMs). We study the impact of modeling and parameterization of the tropospheric delay from VLBI on IWV trends. We address the impact of the meteorological data source utilized to model the hydrostatic delay and the thermal deformation of antennas, as well as the mapping functions employed to project zenith delays to arbitrary directions. To do so, we derive a new mapping function, called Potsdam mapping functions based on NWM data and a new empirical model, GFZ‐PT. GFZ‐PT differs from previous realizations as it describes diurnal and subdiurnal in addition to long‐wavelength variations, it provides harmonic functions of ray tracing‐derived gradients, and it features robustly estimated rates. We find that alternating the mapping functions in VLBI data analysis yields no statistically significant differences in the IWV rates, whereas alternating the meteorological data source distorts the trends significantly. Moreover, we explore methods to extract IWV given a NWM. The rigorously estimated IWV rates from the different VLBI setups, GNSS, and ERA‐Interim are intercompared, and a good agreement is found. We find a quite good agreement comparing ERA‐Interim to VLBI and GNSS, separately, at the level of 75%.DFG, 255986470, GGOS-SIM-2: Simulation des "Global Geodetic Observing System