Global ETD Search

571	Approximating differentiable relationships between delay embedded dynamical systems with radial basis functions Potts, Michael Alan Sherred January 1996 (has links) This thesis is about the study of relationships between experimental dynamical systems. The basic approach is to fit radial basis function maps between time delay embeddings of manifolds. We have shown that under certain conditions these maps are generically diffeomorphisms, and can be analysed to determine whether or not the manifolds in question are diffeomorphically related to each other. If not, a study of the distribution of errors may provide information about the lack of equivalence between the two. The method has applications wherever two or more sensors are used to measure a single system, or where a single sensor can respond on more than one time scale: their respective time series can be tested to determine whether or not they are coupled, and to what degree. One application which we have explored is the determination of a minimum embedding dimension for dynamical system reconstruction. In this special case the diffeomorphism in question is closely related to the predictor for the time series itself. Linear transformations of delay embedded manifolds can also be shown to have nonlinear inverses under the right conditions, and we have used radial basis functions to approximate these inverse maps in a variety of contexts. This method is particularly useful when the linear transformation corresponds to the delay embedding of a finite impulse response filtered time series. One application of fitting an inverse to this linear map is the detection of periodic orbits in chaotic attractors, using suitably tuned filters. This method has also been used to separate signals with known bandwidths from deterministic noise, by tuning a filter to stop the signal and then recovering the chaos with the nonlinear inverse. The method may have applications to the cancellation of noise generated by mechanical or electrical systems. In the course of this research a sophisticated piece of software has been developed. The program allows the construction of a hierarchy of delay embeddings from scalar and multi-valued time series. The embedded objects can be analysed graphically, and radial basis function maps can be fitted between them asynchronously, in parallel, on a multi-processor machine. In addition to a graphical user interface, the program can be driven by a batch mode command language, incorporating the concept of parallel and sequential instruction groups and enabling complex sequences of experiments to be performed in parallel in a resource-efficient manner. 003.5 Neural networks; Time series prediction
572	Developing a Hybrid Model to Predict Student First Year Retention and Academic Success in STEM Disciplines Using Neural Networks Alkhasawneh, Ruba 21 July 2011 (has links) Understanding the reasoning behind the low enrollment and retention rates of Underrepresented Minority (URM) students (African Americans, Hispanic Americans, and Native Americans) in the disciplines of science, technology, engineering, and mathematics (STEM) has concerned many researchers for decades. Numerous studies have used traditional statistical methods to identify factors that affect and predict student retention. Recently, researchers have relied on using data mining techniques for modeling student retention in higher education [1]. This research has used neural networks for performance modeling in order to obtain an adequate understanding of factors related to first year academic success and retention of URM at Virginia Commonwealth University. This research used feed forward back-propagation architecture for modeling. The student retention model was developed based on fall to fall retention in STEM majors. The overall freshman year GPA was used to model student academic success. Each model was built in two different ways: the first was built using all available student inputs, and the second using an optimized subset of student inputs. The optimized subset of the most relevant features that comes with the student, such as demographic attributes, high school rank, and SAT test scores was formed using genetic algorithms. A further step towards understanding the retention of URM groups in STEM fields was taken by conducting a series of focus groups with participants of an intervention program at VCU. Focus groups were designed to elicit responses from participants for identifying factors that affect their retention the most and provide more knowledge about their first year experiences, academically and socially. Results of the genetic algorithm and focus groups were incorporated into building a hybrid model using the most relevant student inputs. The developed hybrid model is shown to be a valuable tool in analyzing and predicting student academic success and retention. In particular, we have shown that identifying the most relevant student inputs from the student’s perspective can be incorporated with quantitative methodologies to build a tool that can be used and interpreted effectively by people who are related to the field of STEM retention and education. Further, the hybrid model performed comparable to the model developed using the optimized set of inputs that resulted from the genetic algorithm. The GPA prediction hybrid model was tested to determine how well it would predict the GPA for all students, majority students and URM students. The root mean squared error (RMSE) on a 4.0 scale was 0.45 for all students, 0.47 for majority students, and 0.45 for URM students. The hybrid retention model was able to predict student retention correctly for 74% of all students, 79% of majority students and 60% of URM students. The hybrid model’s accuracy was increased 3% compared to the model which used the optimized set of inputs. Engineering Education STEM Neural Networks Engineering
573	Multiple Fundamental Frequency Pitch Detection for Real Time MIDI Applications Hilbish, Nathan 18 July 2012 (has links) This study aimed to develop a real time multiple fundamental frequency detection algorithm for real time pitch to MIDI conversion applications. The algorithm described here uses neural network classifiers to make classifications in order to define a chord pattern (combination of multiple fundamental frequencies). The first classification uses a binary decision tree that determines the root note (first note) in a combination of notes; this is achieved through a neural network binary classifier. For each leaf of the binary tree, each classifier determines the frequency group of the root note (low or high frequency) until only two frequencies are left to choose from. The second classifier determines the amount of polyphony, or number of notes played. This classifier is designed in the same fashion as the first, using a binary tree made up of neural network classifiers. The third classifier classifies the chord pattern that has been played. The chord classifier is chosen based on the root note and amount of polyphony, the first two classifiers constrain the third classifier to chords containing only a specific root not and a set polyphony. This allows for the classifier to be more focused and of a higher accuracy. To further increase accuracy, an error correction scheme was devised based on repetitive coding, a technique that holds out multiple frames and compares them in order to detect and correct errors. Repetitive coding significantly increases the classifiers accuracy; it was found that holding out three frames was suitable for real-time operation in terms of throughput, though holding out more frames further increases accuracy it was not suitable real time operation. The algorithm was tested on a common embedded platform, which through benchmarking showed the algorithm was well suited for real time operation. Pitch Detection MIDI Polyphonic Neural Networks Engineering
574	The application of intelligent software for on-line product quality monitoring in manufacturing processes McEntee, Simon January 1996 (has links) No description available. 670.285
575	Characterisation of hitchhiker, a novel mouse mutant with spina bifida Patterson, Victoria Louise January 2011 (has links) Neural tube defects are a set of developmental malformations which can be highly debilitating, with limited treatment available. Mouse mutants exhibiting neural tube defects are studied to identify processes promoting proper neural tube closure, and potential points of intervention for future therapies. This thesis characterises the mouse mutant hitchhiker (hhkr), a hypomorphic allele of Tulp3 which presents with neural tube defects and polydactyly. The spina bifida and exencephaly observed in hhkr mutants are demonstrated to be consequences of failure of neural tube closure, and excessive proliferation is identified in the hindbrain neuroepithelium of mutant embryos. Intriguingly, increases apoptosis was reported for the Tulp3tmlJng mutant (lkeda et aI., 2001), and this increase is not conserved in Tulp3hhkr. Further support is provided for the role of Tulp3 as a negative regulator of Sonic hedgehog (Shh) signalling, confirming such a role in the limb, while preliminary data from genetic interaction studies between hhkr and Tectonic-/- are presented to suggest Tulp3 may exert a positive influence on Shh signalling in cranial regions. The molecular function of the Tulp3 protein is investigated, revealing an interaction between Tulp3 and Alx1, a transcription factor involved in skeletal patterning. An interaction between Tulp3 and Trim71, an E3 ubiquitin ligase is also demonstrated and supported by the eo- localisation of the proteins in transfected cells. Tulp3 is shown to be ubiquitinated in vivo, although this modification does not appear to be dependent on Trim7!. This thesis provides evidence that Tulp3 is likely to be involved in diverse protein-protein interactions around the cell, and some of these interactions may be crucial in promoting the proper closure of the neural tube. 616.73
576	Application of learning algorithms to traffic management in integrated services networks Hall, Jason Lee January 1999 (has links) No description available. 621.382 Real-time Internet; Neural networks; ATM
577	Macroeconomic forecasting: a comparison between artificial neural networks and econometric models. 17 June 2008 (has links) In this study the prediction capabilities of Artificial Neural Networks and typical econometric methods are compared. This is done in the domains of Finance and Economics. Initially, the Neural Networks are shown to outperform traditional econometric models in forecasting nonlinear behaviour. The comparison is extended to indicate that the accuracy of share price forecasting is not necessarily improved when applying Neural Networks rather than traditional time series analysis. Finally, Neural Networks are used to forecast the South African inflation rates, and its performance is compared to that of vector error correcting models, which apparently outperform Artificial Neural Networks. / Prof. D.J. Marais neural networks macroeconomics economic forecasting econometric models
578	Automated Detection of Semagram-Laden Images Cerkez, Paul 01 January 2012 (has links) Digital steganography is gaining wide acceptance in the world of electronic copyright stamping. Digital media that are easy to steal, such as graphics, photos and audio files, are being tagged with both visible and invisible copyright stamp known as a digital watermark. However, these same methodologies are also used to hide communications between actors in criminal or covert activities. An inherent difficulty in developing steganography attacks is overcoming the variety of methods for hiding a message and the multitude of choices of available media. The steganalyst cannot create an attack until the hidden content method appears. When a message is visually transmitted in a non-textual format (i.e., in an image) it is referred to as a semagram. Semagrams are a subset of steganography and are relatively easy to create. However, detecting a hidden message in an image-based semagram is more difficult than detecting digital modifications to an image's structure. The trend in steganography is a decrease in detectable digital traces, and a move toward semagrams. This research outlines the creation of a novel, computer-based application, designed to detect the likely presence of a Morse Code based semagram message in an image. This application capitalizes on the adaptability and learning capabilities of various artificial neural network (NN) architectures, most notably hierarchical architectures. Four NN architectures [feed-forward Back-Propagation NN (BPNN), Self organizing Map (SOM), Neural Abstraction Pyramid (NAP), and a Hybrid Custom Network (HCN)] were tested for applicability to this domain with the best performing one being the HCN. Each NN was given a baseline set of training images (quantity based on NN architecture) then test images were presented, (each test set having 3,337 images). There were 36 levels of testing. Each subsequent test set representing an increase in complexity over the previous one. In the end, the HCN proved to be the NN of choice from among the four tested. The final HCN implementation was the only network able to successfully perform against all 36 levels. Additionally, the HCN, while only being trained on the base Morse Code images, successfully detected images in the 9 test sets of Morse Code isomorphs. neural networks semagram steganography Computer Sciences
579	Influencia de la postura de guitarristas clásicos sobre la velocidad de conducción nerviosa motora en las extremidades superiores. Cheuquelaf Galaz, Cristian Eduardo, Vergara Beltrán, Carla Belén January 2006 (has links) Los objetivos de este trabajo fueron determinar si existe diferencia en la velocidad de conducción nerviosa motora de las extremidades superiores entre guitarristas clásicos y sujetos no guitarristas y determinar si existe correlación entre la postura del guitarrista clásico y la velocidad de conducción nerviosa motora y la latencia motora distal de las extremidades superiores. El estudio se realizó en una población de estudiantes de guitarra clásica de la Facultad de Artes de la Universidad de Chile, cuyos resultados fueron contrastados con los obtenidos en un grupo de comparación, compuesto por sujetos no guitarristas de la carrera de Kinesiología de la Universidad de Chile. A ambos grupos se les midió y comparó las velocidades de conducción nerviosa de la rama motora de los nervios mediano y cubital de ambas extremidades superiores para establecer si existían diferencias. Kinesiología Conducción neural. Postura. Electrodiagnóstico. Guitarristas.
580	A recurrent neural network approach to quantification of risks surrounding the Swedish property market Vikström, Filip January 2016 (has links) As the real estate market plays a central role in a countries financial situation, as a life insurer, a bank and a property developer, Skandia wants a method for better assessing the risks connected to the real estate market. The goal of this paper is to increase the understanding of property market risk and its covariate risks and to conduct an analysis of how a fall in real estate prices could affect Skandia’s exposed assets.This paper explores a recurrent neural network model with the aim of quantifying identified risk factors using exogenous data. The recurrent neural network model is compared to a vector autoregressive model with exogenous inputs that represent economic conditions.The results of this paper are inconclusive as to which method that produces the most accurate model under the specified settings. The recurrent neural network approach produces what seem to be better results in out-of-sample validation but both the recurrent neural network model and the vector autoregressive model fail to capture the hypothesized relationship between the exogenous and modeled variables. However producing results that does not fit previous assumptions, further research into artificial neural networks and tests with additional variables and longer sample series for calibration is suggested as the model preconditions are promising. Artificial neural networks Machine learning RNN

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