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11	Turing machines, computers and artificial intelligence. Krebs, Peter R., History & Philosophy of Science, UNSW January 2002 (has links) This work investigates some of the issues and consequences for the field of artificial intelligence and cognitive science, which are related to the perceived limits of computation with current digital equipment. The Church -Turing thesis and the specific properties of Turing machines are examined and some of the philosophical 'in principle' objections, such as the application of G??del's incompleteness theorem, are discussed. It is argued that the misinterpretation of the Church-Turing thesis has led to unfounded assumptions about the limitations of computing machines in general. Modern digital computers, which are based on the von Neuman architecture, can typically be programmed so that they interact effectively with the real word. It is argued that digital computing machines are supersets of Turing machines, if they are, for example, programmed to interact with the real world. Moreover, computing is not restricted to the domain of discrete state machines. Analog computers and real or simulated neural nets exhibit properties that may not be accommodated in a definition of computing, which is based on Turing machines. Consequently, some of the philosophical 'in principle' objections to artificial intelligence may not apply in reference to engineering efforts in artificial intelligence. Turing machines computers artificial intelligence philosophy Church-Turing thesis
12	On some complexity problems in finite algebras Kozik, Marcin. January 2004 (has links) Thesis (Ph. D. in Mathematics)--Vanderbilt University, Dec. 2004. / Title from title screen. Includes bibliographical references.
13	SIMTM turing machine simulator Chen, Yin Fu 01 January 1995 (has links) No description available. Sequential machine theory Turing machines Electronic digital computers Computer Engineering
14	Training Robot Policies using External Memory Based Networks Via Imitation Learning January 2018 (has links) abstract: Recent advancements in external memory based neural networks have shown promise in solving tasks that require precise storage and retrieval of past information. Re- searchers have applied these models to a wide range of tasks that have algorithmic properties but have not applied these models to real-world robotic tasks. In this thesis, we present memory-augmented neural networks that synthesize robot navigation policies which a) encode long-term temporal dependencies b) make decisions in partially observed environments and c) quantify the uncertainty inherent in the task. We extract information about the temporal structure of a task via imitation learning from human demonstration and evaluate the performance of the models on control policies for a robot navigation task. Experiments are performed in partially observed environments in both simulation and the real world / Dissertation/Thesis / Masters Thesis Computer Science 2018 Computer science Imitation Learning Memory Networks Neural Network Neural Turing Machines Robot Policies Uncertainity Estimation
15	A hypertext learning system for theory of computation Park, Seongmin January 1993 (has links) The Hypertext concept was introduced about 50 years ago. This thesis presents the development of a reference system using the Hypertext concept. HYATS (HYpertext Automata and Turing Theory Learning 5ys,em) is a system which helps users learn many topics in the area of theory of computation. The system is implemented by Guide which is a general purpose Hypertext system running on PC-Windows environment. HYATS also includes a Turing machine simulating program which was written by Dominique Atger as her Master's Thesis in 1993, so that users can actually experiment with Turing machines learned through HYATS. HYATS will be not only the reference system, but also the complete package of actual learning system. The motivation behind this project is to study basic concepts of a Hypertext system so that it will also contribute to G-Net research. HYATS can be used as a prototype for future development of versions of by using other Hypertext systems such as NoteCards. / Department of Computer Science Hypertext systems. Turing machines -- Computer programs.
16	Uma abordagem modelo-teórica da computabilidade de Turing clássica / A model-theoretical approach to classical Turing computability Araújo, Anderson 17 August 2018 (has links) Orientador: Walter Alexandre Carnielli / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Filosofia e Ciências Humanas / Made available in DSpace on 2018-08-17T17:02:46Z (GMT). No. of bitstreams: 1 Araujo_Anderson_D.pdf: 1286485 bytes, checksum: 1e51db7a5721f4affeaf8f512d23269e (MD5) Previous issue date: 2011 / Resumo: Esta tese propõe uma nova abordagem da computabilidade de Turing clássica, denominada abordagem modelo-teórica. De acordo com essa abordagem, estruturas e teorias são associadas às máquinas de Turing a fim de investigar as características de suas computações. Uma abordagem modelo-teórica da computabilidade de Turing através da lógica de primeira ordem é desenvolvida, e resultados de correspondência, correção, representação e completude entre máquinas, estruturas e teorias de Turing são demonstrados. Nessa direção, os resultados obtidos a respeito de propriedades tais como estabilidade, absoluticidade, universalidade e logicidade enfatizam as potencialidades da computabilidade modelo-teórica de primeira ordem. Demonstra-se que a lógica subjacente às teorias de Turing é uma lógica minimal intuicio-nista, sendo capaz, inclusive, de internalizar um operador de negação clássico. As técnicas formuladas nesta tese permitem, sobretudo, investigar a computabilidade de Turing em modelos não-padrão da aritmética. Nesse contexto, uma nova perspectiva acerca do fenômeno de Tennenbaum e uma avaliação crítica da abordagem de Dershowitz e Gurevich da tese de Church-Turing sào apresentadas. Como conseqüência, postula-se um princípio de interna-lidade aritmética na computabilidade, segundo o qual o próprio conceito de computação é relativo ao modelo aritmético em que as máquinas de Turing operam. Assim, a tese unifica as caracterizações modelo-aritméticas do problema P versus NP existentes na literatura, revelando, por fim, uma barreira modelo-aritmética para a possibilidade de solução desse problema central em complexidade computacional no que diz respeito a certos métodos. Em sua totalidade, a tese sustenta que características cruciais do conceito de computação podem ser vislumbradas a partir da dualidade entre finitude e infinitude presente na distinção entre números naturais padrão e não-padrão / Abstract: This PhD thesis proposes a new approach to classical Turing computability, called a model-theoretic approach. In that approach, structures and theories are associated to Turing machines in order to study the characteristics of their computations. A model-theoretic approach to Turing computability through first-order logic is developed, and first results about correspondence, soundness, representation and completeness among Turing machines, structures and theories are proved. In this line, the results about properties as stability, absoluteness, universality and logicality emphasize the importance of the model-theoretic standpoint. It is shown that the underlying logic of Turing theories is a minimal intuicionistic logic, being able to internalize a classical negation operator. The techniques obtained in the present dissertation permit us to examine the Turing computability over nonstandard models of arithmetic as well. In this context, a new perspective about Tennenbaum's phenomenon and a critical evaluation of Dershowitz and Gurevich's account on Church-Turing's thesis are given. As a consequence, an arithmetic internality principle is postulated, according to which the concept of computation itself is relative to the arithmetic model that Turing machines operate. In this way, the dissertation unifies the existing model-arithmetic characterizations of the P versus NP problem, leading, as a by-product, to a model-arithmetic barrier to the solvability of that central problem in computational complexity with respect to certain techniques. As a whole, the dissertation sustains that crucial characteristics of the concept of computation may be understood from the duality between finiteness and infiniteness inherent within the distinction between standard and nonstandard natural numbers / Doutorado / Filosofia / Doutor em Filosofia Lógica simbólica e matemática Turing, Máquinas de Aritmética Symbolic and mathematical logic Turing machines Arithmetic
17	Computação paraconsistente : uma abordagem logica a computação quantica / Paraconsisted computation : a logic approach to quantum Agudelo, Juan Carlos Agudelo 14 August 2018 (has links) Orientador: Walter Alexandre Carnielli / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Filosofia e Ciencias Humanas / Made available in DSpace on 2018-08-14T17:27:49Z (GMT). No. of bitstreams: 1 Agudelo_JuanCarlosAgudelo_D.pdf: 1223911 bytes, checksum: 92e4a3e06e1921aefd3476374d0726f2 (MD5) Previous issue date: 2009 / Resumo: Neste trabalho levantamos, e investigamos do ponto de vista conceitual, evidências de que a complexidade algorítmica pode ser vista como relativa à lógica. Propomos, para tanto, novos modelos de computação fundados sobre lógicas não-clássicas, estudando suas características quanto à expressabilidade computacional e eficiência. A partir desta visão, sugerimos um novo caminho para estudar a eficiência dos modelos de computação quântica, enfatizando a análise de uma lógica subjacente a tais modelos. O conteúdo da tese está estruturado da seguinte maneira: no primeiro capítulo apresentamos uma análise conceitual da noção de 'computação', indicando como este conceito tem mudado desde os trabalhos fundacionais da década de 1930, e discutindo se o conceito deve ser considerado como puramente físico, puramente lógicomatemático ou uma combinação de ambos. O Capítulo 2 introduz duas versões de 'máquinas de Turing paraconsistentes', usando sistemas lógicos diferentes e obtendo modelos com diferentes poderes computacionais (quanto à eficiência); tal resultado constitui uma primeira evidência a favor da relatividade lógica da computação que queremos defender. Outra evidência na mesma direção é apresentada no Capitulo 3, através da generalização dos circuitos booleanos para lógicas não-clássicas, em particular para a lógica paraconsistente mbC e para a lógica modal S5, e da análise do poder computacional de tais generalizações. O Capítulo 4 consiste numa introdução à computação quântica, para logo (no Capítulo 5) estabelecer algumas relações entre modelos de computação quântica e modelos de computação paraconsistente, de maneira a propor uma interpretação lógica dos modelos quânticos. No capítulo final (Capítulo 6) descrevemos várias relações entre mecânica quântica e lógica paraix consistente, relações estas que sugerem potencialidades com alto grau de relevância a respeito da abordagem paraconsistente dos fenômenos computacionais quânticos e que incitam a continuar explorando esta alternativa. / Abstract: This work provides evidences to view computational complexity as logic-relative, by introducing new models of computation through non-classical logics and by studying their features with respect to computational expressivity and efficiency. From this point of view, we suggest a new way to study the efficiency of quantum computational models consisting in the analysis of an underlying logic. The contents of the thesis is structured in the following way: the first chapter presents a conceptual analysis of the notion of 'computation', showing how this concept evolved since the decade of 1930 and discussing whether it can be considered a pure physical or a pure logic-mathematical concept, or a combination of both paradigms. Chapter 2 introduces two versions of 'paraconsistent Turing machines', by considering different logic systems and obtaining models with different computational capabilities (with respect to efficiency); such a result constitute a first evidence in favor of the logical relativity of computation that we are defending here. Another evidence in the same direction is presented in Chapter 3 through a generalization of boolean circuits to non-classical logics, particularly for the paraconsistent logic mbC and for the modal logic S5, and by analyzing the computational power of such generalizations. Chapter 4 consists in an introduction to quantum computation. This is used in Chapter 5 to establish some relationships between quantum and paraconsistent models of computation, in order to propose a logic interpretation of quantum models. The final chapter (Chapter 6) describes several connections between quantum mechanics and paraconsistent logic; such relationship suggests highly relevant potentialities in favor of the paraconsistent approach to quantum computation phenomena encouraging to continue exploring this alternative. / Doutorado / Logica / Doutor em Filosofia Funções computáveis Turing, Máquinas de Circuitos lógicos Computação quântica Computability theory Turing machines Logical circuits Quantum computation
18	Development of a Machine to Control the Level of Washing in Panca Chili Seeds De La Cruz, Anthony, Cardenas, Jaime, Vinces, Leonardo 01 January 2021 (has links) El texto completo de este trabajo no está disponible en el Repositorio Académico UPC por restricciones de la casa editorial donde ha sido publicado. / The washing of Panca chili seeds requires innovative solutions that allow controlling this process. It is necessary to handle variables (conductivity, pH, colorimetry) in the face of the challenge of working with small seeds. At present, there are no machines that are dedicated to the washing of this type of seeds, since in many companies this work is done manually, which is not the one indicated because this technique cannot guarantee homogeneity in the seed washing. In addition, direct handling of this type of seeds can cause irritation to the eyes and skin of the person who maintains contact with the seeds. That is why, it is proposed to make a machine to scale by means of a motorized rotary agitator inside a tank, in order to guarantee the homogeneity of the mixture when washing seeds. The present work will allow to determine, among two different types of agitators (axial and radial), which type of agitator is the most efficient in the washing of seeds of Panca chili, to achieve this objective the measurement of pH and electrical conductivity to the water will be carried after the mixture, after stirring. Finally, the analysis of the tests performed on the mixture obtained and washed by each type of agitator allowed to identify the turbine-type radial agitator, like the one that obtained greater efficiency in the washing of seeds, with respect to the helical agitator and pallets, designed for development of this work, in turn, could also confirm that this type of palette with the conductivity control allows to guarantee the homogeneity of the mixture during washing. © 2021, The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG. / Revisión por pares Capsaicin Electrical conductivity measurement Mixing pH measurement Stirring Washing seeds Mixtures Turing machines Innovative solutions
19	Heavy Object Lifting Platform to Correct Human Balance and Posture Raymundo, F., Quispe, G., Raymundo-Ibañeez, C. 25 November 2019 (has links) This research document on technological development is aimed at workers in small companies, those that are developing well and soon to emerge as companies that will be positioned at the top of their labor sector. Starting from the problem at present with respect to the bad manipulation of loads it is arranged to solve the problem with established objectives to try to correct the corporal posture at the time of lifting an object with a machine that replaces the functions of the worker. The design and the solution was made based on the requirements of the worker, workers who have the need to load objects at a certain height, here the man-machine relationship, demands and desires that help to achieve the general objective are analyzed. In addition, it has the main function of this machine: To lift heavy objects of up to 150 kg of mass, this due to the implementation of a hydraulic piston in the lifting platform. The appropriate solution is an adaptation of a platform in the form of a truck forming an angle of 47.17 between the structure of the truck and the horizontal surface, this position is the most adequate so that the back does not suffer injuries during the handling of loads at work. The results give assurance that it is a machine of reliability and easy handling since it only requires an operator to control the objects and a flat position on the back without damaging the spine. Trucks Turing machines Flat position Horizontal surfaces; Human balance Hydraulic pistons Man machines
20	Turing machine algorithms and studies in quasi-randomness Kalyanasundaram, Subrahmanyam 09 November 2011 (has links) Randomness is an invaluable resource in theoretical computer science. However, pure random bits are hard to obtain. Quasi-randomness is a tool that has been widely used in eliminating/reducing the randomness from randomized algorithms. In this thesis, we study some aspects of quasi-randomness in graphs. Specifically, we provide an algorithm and a lower bound for two different kinds of regularity lemmas. Our algorithm for FK-regularity is derived using a spectral characterization of quasi-randomness. We also use a similar spectral connection to also answer an open question about quasi-random tournaments. We then provide a "Wowzer" type lower bound (for the number of parts required) for the strong regularity lemma. Finally, we study the derandomization of complexity classes using Turing machine simulations. 1. Connections between quasi-randomness and graph spectra. Quasi-random (or pseudo-random) objects are deterministic objects that behave almost like truly random objects. These objects have been widely studied in various settings (graphs, hypergraphs, directed graphs, set systems, etc.). In many cases, quasi-randomness is very closely related to the spectral properties of the combinatorial object that is under study. In this thesis, we discover the spectral characterizations of quasi-randomness in two different cases to solve open problems. A Deterministic Algorithm for Frieze-Kannan Regularity: The Frieze-Kannan regularity lemma asserts that any given graph of large enough size can be partitioned into a number of parts such that, across parts, the graph is quasi-random. . It was unknown if there was a deterministic algorithm that could produce a parition satisfying the conditions of the Frieze-Kannan regularity lemma in deterministic sub-cubic time. In this thesis, we answer this question by designing an O(n[superscript]w) time algorithm for constructing such a partition, where w is the exponent of fast matrix multiplication. Even Cycles and Quasi-Random Tournaments: Chung and Graham in had provided several equivalent characterizations of quasi-randomness in tournaments. One of them is about the number of "even" cycles where even is defined in the following sense. A cycle is said to be even, if when walking along it, an even number of edges point in the wrong direction. Chung and Graham showed that if close to half of the 4-cycles in a tournament T are even, then T is quasi-random. They asked if the same statement is true if instead of 4-cycles, we consider k-cycles, for an even integer k. We resolve this open question by showing that for every fixed even integer k geq 4, if close to half of the k-cycles in a tournament T are even, then T must be quasi-random. 2. A Wowzer type lower bound for the strong regularity lemma. The regularity lemma of Szemeredi asserts that one can partition every graph into a bounded number of quasi-random bipartite graphs. Alon, Fischer, Krivelevich and Szegedy obtained a variant of the regularity lemma that allows one to have an arbitrary control on this measure of quasi-randomness. However, their proof only guaranteed to produce a partition where the number of parts is given by the Wowzer function, which is the iterated version of the Tower function. We show here that a bound of this type is unavoidable by constructing a graph H, with the property that even if one wants a very mild control on the quasi-randomness of a regular partition, then any such partition of H must have a number of parts given by a Wowzer-type function. 3. How fast can we deterministically simulate nondeterminism? We study an approach towards derandomizing complexity classes using Turing machine simulations. We look at the problem of deterministically counting the exact number of accepting computation paths of a given nondeterministic Turing machine. We provide a deterministic algorithm, which runs in time roughly O(sqrt(S)), where S is the size of the configuration graph. The best of the previously known methods required time linear in S. Our result implies a simulation of probabilistic time classes like PP, BPP and BQP in the same running time. This is an improvement over the currently best known simulation by van Melkebeek and Santhanam. Quasi-randomness Algorithm Lower bound Turing machines Regularity lemma Combinatorics Complexity theory Machine theory Algorithms Computer science Computer science Mathematics

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