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A Fast Cubic-Spline Interpolation and Its ApplicationsWang, Lung-Jen 15 March 2001 (has links)
In this dissertation, a new cubic-spline interpolation (CSI) for both one-dimensional and two-dimensional signals is developed to sub-sample signal, image and video compression data. This new interpolation scheme that is based on the least-squares method with a cubic-spline function can be implemented by the fast Fourier transform (FFT). The result is a simpler and faster interpolation scheme than can be obtained by other conventional means. It is shown by computer simulation that such a new CSI yields a very accurate algorithm for smoothing. Linear interpolation, linear-spline interpolation, cubic-convolution interpolation and cubic B-spline interpolation tend to be inferior in performance.
In addition it is shown in this dissertation that the CSI scheme can be performed by a fast and efficient computation. The proposed method uses a simpler technique in the decimation process. It requires substantially fewer additions and multiplications than the original CSI algorithm. Moreover, a new type of overlap-save scheme is utilized to solve the boundary-condition problems that occur between two neighboring subimages in the actual image. It is also shown in this dissertation that a very efficient 9-point Winograd discrete Fourier transform (Winograd DFT) can be used to replace the FFT needed to implement the CSI scheme.
Furthermore, the proposed fast new CSI scheme is used along with the Joint Photographic Experts Group (JPEG) standard to design a modified JPEG encoder- decoder for image data compression. As a consequence, for higher compression ratios the proposed modified JPEG encoder-decoder obtains a better quality of reconstructed image and also requires less computational time than both the conventional JPEG method and the America on Line (AOL) algorithm. Finally, the new fast CSI scheme is applied to the JPEG 2000, MPEG-1 and MPEG-2 algorithms, respectively. A computer simulation shows that in the encoding and decoding, the proposed modified JPEG 2000 encoder-decoder speeds up the JPEG 2000 standard, respectively, and still obtains a good quality of reconstructed image that is similar to JPEG 2000 standard for high compression ratios. Additionally, the reconstructed video using the modified MPEG encoder-decoder indicates a better quality than the conventional MPEG-1 and MPEG-2 algorithms for high compression ratios or low-bit rates.
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Applications of Proper Orthogonal Decomposition for Inviscid Transonic AerodynamicsTan, Bui-Thanh, Willcox, Karen E., Damodaran, Murali 01 1900 (has links)
Two extensions to the proper orthogonal decomposition (POD) technique are considered for steady transonic aerodynamic applications. The first is to couple the POD approach with a cubic spline interpolation procedure in order to develop fast, low-order models that accurately capture the variation in parameters, such as the angle of attack or inflow Mach number. The second extension is a POD technique for the reconstruction of incomplete or inaccurate aerodynamic data. First, missing flow field data is constructed with an existing POD basis constructed from complete aerodynamic data. Second, a technique is used to develop a complete snapshots from an incomplete set of aerodynamic snapshots. / Singapore-MIT Alliance (SMA)
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The Research of Very Low Bit-Rate and Scalable Video Compression Using Cubic-Spline InterpolationWang, Chih-Cheng 18 June 2001 (has links)
This thesis applies the one-dimensional (1-D) and two-dimensional (2-D) cubic-spline interpolation (CSI) schemes to MPEG standard for very low-bit rate video coding. In addition, the CSI scheme is used to implement the scalable video compression scheme in this thesis.
The CSI scheme is based on the least-squares method with a cubic convolution function. It has been shown that the CSI scheme yields a very accurate algorithm for smoothing and obtains a better quality of reconstructed image than linear interpolation, linear-spline interpolation, cubic convolution interpolation, and cubic B-spline interpolation.
In order to obtain a very low-bit rate video, the CSI scheme is used along with the MPEG-1 standard for video coding. Computer simulations show that this modified MPEG not only avoids the blocking effect caused by MPEG at high compression ratio but also gets a very low-bit rate video coding scheme that still maintains a reasonable video quality. Finally, the CSI scheme is also used to achieve the scalable video compression. This new scalable video compression scheme allows the data rate to be dynamically changed by the CSI scheme, which is very useful when operates under communication networks with different transmission capacities.
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Combining scientific computing and machine learning techniques to model longitudinal outcomes in clinical trials.Subramanian, Harshavardhan January 2021 (has links)
Scientific machine learning (SciML) is a new branch of AI research at the edge of scientific computing (Sci) and machine learning (ML). It deals with efficient amalgamation of data-driven algorithms along with scientific computing to discover the dynamics of the time-evolving process. The output of such algorithms is represented in the form of a governing equation(s) (e.g., ordinary differential equation(s), ODE(s)), which one can solve then for any time point and, thus, obtain a rigorous prediction. In this thesis, we present a methodology on how to incorporate the SciML approach in the context of clinical trials to predict IPF disease progression in the form of governing equation. Our proposed methodology also quantifies the uncertainties associated with the model by fitting 95\% high density interval (HDI) for the ODE parameters and 95\% posterior prediction interval for posterior predicted samples. We have also investigated the possibility of predicting later outcomes by using the observations collected at early phase of the study. We were successful in combining ML techniques, statistical methodologies and scientific computing tools such as bootstrap sampling, cubic spline interpolation, Bayesian inference and sparse identification of nonlinear dynamics (SINDy) to discover the dynamics behind the efficacy outcome as well as in quantifying the uncertainty of the parameters of the governing equation in the form of 95 \% HDI intervals. We compared the resulting model with the existed disease progression model described by the Weibull function. Based on the mean squared error (MSE) criterion between our ODE approximated values and population means of respective datasets, we achieved the least possible MSE of 0.133,0.089,0.213 and 0.057. After comparing these MSE values with the MSE values obtained after using Weibull function, for the third dataset and pooled dataset, our ODE model performed better in reducing error than the Weibull baseline model by 7.5\% and 8.1\%, respectively. Whereas for the first and second datasets, the Weibull model performed better in reducing errors by 1.5\% and 1.2\%, respectively. Comparing the overall performance in terms of MSE, our proposed model approximates the population means better in all the cases except for the first and second datasets, assuming the latter case's error margin is very small. Also, in terms of interpretation, our dynamical system model contains the mechanistic elements that can explain the decay/acceleration rate of the efficacy endpoint, which is missing in the Weibull model. However, our approach had a limitation in predicting final outcomes using a model derived from 24, 36, 48 weeks observations with good accuracy where as on the contrast, the Weibull model do not possess the predicting capability. However, the extrapolated trend based on 60 weeks of data was found to be close to population mean and the ODE model built on 72 weeks of data. Finally we highlight potential questions for the future work.
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On the use of optimized cubic spline atomic form factor potentials for band structure calculations in layered semiconductor structuresMpshe, Kagiso 18 March 2016 (has links)
The emperical pseudopotential method in the large basis approach was used to calculate
the electronic bandstructures of bulk semiconductor materials and layered semiconductor
heterostructures. The crucial continuous atomic form factor potentials needed to carry out
such calculations were determined by using Levenberg-Marquardt optimization in order
to obtain optimal cubic spline interpolations of the potentials. The optimized potentials
were not constrained by any particular functional form (such as a linear combination of
Gaussians) and had better convergence properties for the optimization. It was demonstrated
that the results obtained in this work could potentially lead to better agreement
between calculated and empirically determined band gaps via optimization / Physics / M. Sc. (Physics)
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SisA3 : Sistema Automatizado de Auditoria de Armaz´ens de Gran´eis / SISA3 : AN AUTOMATED AUDIT SYSTEM FOR GRAIN STORESAl-alam, Wagner Guimarães 15 January 2010 (has links)
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Previous issue date: 2010-01-15 / Companies working with bulk materials have appropriate locations for storage
during the development of the production and storage of the final product, known as
warehouses or storehouses. The values of stocks need to be periodically validated by
comparing the control of receipts the and the physical situation (removal of the volume
stored in the company). In this context, the calculation of physical inventory as the volume
of bulk present in the warehouses is usually done manually with low credibility and prone
to errors. The current audit procedures on the contents of warehouses involve inaccurate
estimates, and often require emptying the warehouse.
Considering the use of technologies which enable the electronic measurement of
distances, angles, and automatic controls on actuators enabling mechanical movements
on the supporting structures, we sought to develop a system capable of providing both
computing solutions, and technology for the problem of calculation of irregular relief
(products stocked in warehouses).
The Automated Auditing Warehouse SisA3 intends to make this process automatic,
fast and precise, without the need for emptying warehouses or having contact
the products. To achieve this goal, we developed an integrated system composed of:
(i) a scanner equipment, consoling the hybrid prototype of hardware and software called
DigSisA3, in order to the measurement of points of relief non-uniform, formed by the
products in stock, and (ii) a method for calculating the volume iCone, which combines
techniques of scientific visualization, numerical interpolation points and iterative calculation
of volume.
The parallelization of the prototype iCone was also developed in order to satisfy
the test of agility and performance of the method iCone in the audit process. The development
for multiprocessor, multi-core, and distributed architectures was done over the DGM
(Geometric Distributed Machine), which provides the formalities to ensure creation,
management and application processing parallel and / or distributed scientific computing,
with emphasis on the exploitation of data parallelism and synchronization steps.
The prototype of software iCone was functionally validated, including analysis
of error in the method. The analysis of performance in the prototype p-iCone showed
satisfactory results. The development of this work strengthens the system SisA3, enabling
automatic and reliable measurement of inventories, including broad market application / Empresas que trabalham com produtos a granel possuem locais para estocagem,
durante o desenvolvimento do processo produtivo e no armazenamento do produto final,
denominados armaz´ens ou silos. Os valores dos estoques devem ser validados periodicamente
atrav´es da comparac¸ ao dos estoques fiscal (controle das notas fiscais) e f´ısico (levantamento
do volume estocado na empresa). Neste contexto, o c´alculo do estoque f´ısico,
ou seja, o volume de gran´eis presentes nos armaz´ens, ´e geralmente efetuado de forma
manual e com baixa credibilidade, desta forma com propens ao a erros. Os atuais processos
de auditoria no conte´udo de silos, al´em de envolverem estimativas inexatas, est ao
frequentemente baseados no esvaziamento do silo.
Considerando o uso de tecnologias que viabilizam a medic¸ ao eletr onica de
dist ancias, angulos, e controles autom´aticos sobre atuadores que possibilitam movimentos
mec anicos sobre estruturas de suporte, buscou-se o desenvolvimento de um sistema
capaz de prover tanto soluc¸ oes computacionais, quanto tecnol´ogicas para o problema de
c´alculo do volume de relevos irregulares, no caso dos produtos estocados nos armaz´ens.
O Sistema Automatizado de Auditoria em Armaz´ens (SisA3) pretende tornar este
processo autom´atico, r´apido e preciso, sem a necessidade de esvaziamento ou contato com
os produtos. Para alcanc¸ar este objetivo, tem-se um sistema integrado composto de: (i)
um equipamento digitalizador, consolidando o prot´otipo h´ıbrido de hardware e software
denominado Dig-SisA3 , para a medic¸ ao de pontos do relevo n ao-uniforme, formado pelos
produtos estocados; e (ii) m´etodo para o c´alculo do volume (iCone), que combina t´ecnicas
de visualizac¸ ao cient´ıfica, interpolac¸ ao num´erica de pontos e c´alculo iterativo de volume.
Al´em disto, introduz-se a paralelizac¸ ao do prot´otipo iCone, para diminuir o tempo
da obtenc¸ ao dos resultados do m´etodo iCone no processo de auditoria. A an´alise sobre
as perspectivas em arquiteturas multiprocessadas, multi-core e paralela distribu´ıda, utiliza
o ambiente D-GM (Distributed Geometric Machine), a qual prov e os formalismos para
garantir criac¸ ao, gerenciamento e processamento de aplicac¸ oes paralelas e/ou distribu´ıdas
da computac¸ ao cient´ıfica, com enfase na explorac¸ ao do paralelismo de dados e nas etapas
de sincronizac¸ oes.
O prot´otipo de software iCone apresenta-se funcionalmente validado, incluindo
an´alise de erro na execuc¸ ao do m´etodo. As an´alises de desempenho no prot´otipo p-iCone
apresentaram resultados satisfat´orios. O desenvolvimento deste trabalho consolida o sistema
SisA3, viabilizando aferic¸ ao autom´atica e confi´avel de estoques, incluindo ampla
aplicac¸ ao no mercado
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On the use of optimized cubic spline atomic form factor potentials for band structure calculations in layered semiconductor structuresMpshe, Kagiso 18 March 2016 (has links)
The emperical pseudopotential method in the large basis approach was used to calculate
the electronic bandstructures of bulk semiconductor materials and layered semiconductor
heterostructures. The crucial continuous atomic form factor potentials needed to carry out
such calculations were determined by using Levenberg-Marquardt optimization in order
to obtain optimal cubic spline interpolations of the potentials. The optimized potentials
were not constrained by any particular functional form (such as a linear combination of
Gaussians) and had better convergence properties for the optimization. It was demonstrated
that the results obtained in this work could potentially lead to better agreement
between calculated and empirically determined band gaps via optimization / Physics / M. Sc. (Physics)
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