40,073 research outputs found
Improving the Accuracy and Scope of Control-Oriented Vapor Compression Cycle System Models
The benefits of applying advanced control techniques to vapor compression cycle systems are well know.
The main advantages are improved performance and efficiency, the achievement of which brings both economic and
environmental gains. One of the most significant hurdles to the practical application of advanced control techniques
is the development of a dynamic system level model that is both accurate and mathematically tractable. Previous
efforts in control-oriented modeling have produced a class of heat exchanger models known as moving-boundary
models. When combined with mass flow device models, these moving-boundary models provide an excellent
framework for both dynamic analysis and control design. This thesis contains the results of research carried out to
increase both the accuracy and scope of these system level models.
The improvements to the existing vapor compression cycle models are carried out through the application
of various modeling techniques, some static and some dynamic, some data-based and some physics-based. Semiempirical
static modeling techniques are used to increase the accuracy of both heat exchangers and mass flow
devices over a wide range of operating conditions. Dynamic modeling techniques are used both to derive new
component models that are essential to the simulation of very common vapor compression cycle systems and to
improve the accuracy of the existing compressor model. A new heat exchanger model that accounts for the effects
of moisture in the air is presented. All of these model improvements and additions are unified to create a simple but
accurate system level model with a wide range of application. Extensive model validation results are presented,
providing both qualitative and quantitative evaluation of the new models and model improvements.Air Conditioning and Refrigeration Project 17
The linearity response of the Planck-LFI flight model receivers
In this paper we discuss the linearity response of the Planck-LFI receivers,
with particular reference to signal compression measured on the 30 and 44 GHz
channels. In the article we discuss the various sources of compression and
present a model that accurately describes data measured during tests performed
with individual radiomeric chains. After discussing test results we present the
best parameter set representing the receiver response and discuss the impact of
non linearity on in-flight calibration, which is shown to be negligible.Comment: this paper is part of the Prelaunch status LFI papers published on
JINST: http://www.iop.org/EJ/journal/-page=extra.proc5/jinst; This is an
author-created, un-copyedited version of an article accepted for publication
in JINST. IOP Publishing Ltd is not responsible for any errors or omissions
in this version of the manuscript or any version derived from it. The
definitive publisher authenticated version is available online at
10.1088/1748-0221/4/12/T12011
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Value encoding in the globus pallidus: fMRI reveals an interaction effect between reward and dopamine drive
The external part of the globus pallidus (GPe) is a core nucleus of the basal ganglia (BG) whose activity is disrupted under conditions of low dopamine release, as in Parkinson's disease. Current models assume decreased dopamine release in the dorsal striatum results in deactivation of dorsal GPe, which in turn affects motor expression via a regulatory effect on other nuclei of the BG. However, recent studies in healthy and pathological animal models have reported neural dynamics that do not match with this view of the GPe as a relay in the BG circuit. Thus, the computational role of the GPe in the BG is still to be determined. We previously proposed a neural model that revisits the functions of the nuclei of the BG, and this model predicts that GPe encodes values which are amplified under a condition of low striatal dopaminergic drive. To test this prediction, we used an fMRI paradigm involving a within-subject placebo-controlled design, using the dopamine antagonist risperidone, wherein healthy volunteers performed a motor selection and maintenance task under low and high reward conditions. ROI-based fMRI analysis revealed an interaction between reward and dopamine drive manipulations, with increased BOLD activity in GPe in a high compared to low reward condition, and under risperidone compared to placebo. These results confirm the core prediction of our computational model, and provide a new perspective on neural dynamics in the BG and their effects on motor selection and cognitive disorders
Mitigation of H.264 and H.265 Video Compression for Reliable PRNU Estimation
The photo-response non-uniformity (PRNU) is a distinctive image sensor
characteristic, and an imaging device inadvertently introduces its sensor's
PRNU into all media it captures. Therefore, the PRNU can be regarded as a
camera fingerprint and used for source attribution. The imaging pipeline in a
camera, however, involves various processing steps that are detrimental to PRNU
estimation. In the context of photographic images, these challenges are
successfully addressed and the method for estimating a sensor's PRNU pattern is
well established. However, various additional challenges related to generation
of videos remain largely untackled. With this perspective, this work introduces
methods to mitigate disruptive effects of widely deployed H.264 and H.265 video
compression standards on PRNU estimation. Our approach involves an intervention
in the decoding process to eliminate a filtering procedure applied at the
decoder to reduce blockiness. It also utilizes decoding parameters to develop a
weighting scheme and adjust the contribution of video frames at the macroblock
level to PRNU estimation process. Results obtained on videos captured by 28
cameras show that our approach increases the PRNU matching metric up to more
than five times over the conventional estimation method tailored for photos
A simple method for the determination of the structure of ultrashort relativistic electron bunches
In this paper we propose a new method for measurements of the longitudinal
profile of 100 femtosecond electron bunches for X-ray Free Electron Lasers
(XFELs). The method is simply the combination of two well-known techniques,
which where not previously combined to our knowledge. We use seed 10-ps 1047 nm
quantum laser to produce exact optical replica of ultrafast electron bunches.
The replica is generated in apparatus which consists of an input undulator
(energy modulator), and the short output undulator (radiator) separated by a
dispersion section. The radiation in the output undulator is excited by the
electron bunch modulated at the optical wavelength and rapidly reaches 100
MW-level peak power. We then use the now-standard method of ultrashort laser
pulse-shape measurement, a tandem combination of autocorrelator and spectrum
(FROG -- frequency resolved optical gating). The FROG trace of the optical
replica of electron bunch gives accurate and rapid electron bunch shape
measurements in a way similar to a femtosecond oscilloscope. Real-time
single-shot measurements of the electron bunch structure could provide
significant information about physical mechanisms responsible for generation
ultrashort electron bunches in bunch compressors. The big advantage of proposed
technique is that it can be used to determine the slice energy spread and
emittance in multishot measurements. It is possible to measure bunch structure
completely, that is to measure peak current, energy spread and transverse
emittance as a function of time. We illustrate with numerical examples the
potential of the proposed method for electron beam diagnostics at the European
X-ray FEL.Comment: 41 pages, 18 figure
Local heat flux measurement technique for internal combustion engines
The heat transfer from the combustion gases to the cylinder wall affects the efficiency, emissions and power output of an internal combustion engine. Measuring the heat transfer requires a heat flux sensor inside the combustion chamber that has a short response time and is able to withstand the harsh conditions during combustion. In this work, a suitable sensor is introduced and the measured wall temperature, heat flux and convection coefficient are compared to those measured with a commercial sensor. It was found that both sensors measure the same convection coefficient, but a different wall temperature and heat flux. This is because the presence of the sensor in the combustion chamber wall affects these quantities. A method is proposed to cancel this effect and calculate the actual heat flux through the cylinder wall
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