The Situational Rationality of Task Performance: Artifacts of Belief in Human Problem-Solving and Artificial Intelligence

Understanding the artificiality of belief is crucial for the image it generates regarding task performance in the course of problem-solving. This paper examines the contribution of the artificial as a model of human intervention and its relationship to a model of human participation. Specifically, it details the logical differences underlying how belief operationalizes the perception of complexity and its effects on task performance in human and machine problem-solving. Three configurations of artificiality are presented to explain these differences and their effects on the relationship between representation and computation in problem-solving. The first describes the “natural artifact” that arises from a symbolic model of intelligence and the design of a maze. The second describes the “natural artifact” that arises from a sub-symbolic model of intelligence and the design of a mold. The third examines how a hybrid model of intelligence requires “socio-cognitive artifacts” in which a means of adaptation is primarily mediated by discourse rather than design. In doing so, the paper examines how momentary beliefs explain the situational rationality of task performance. The paper concludes with a commentary on the requisites of artificial intelligibility in machine problem-solving.

A Bender’s Algorithm of Decomposition Used for the Parallel Machine Problem of Robotic Cell

The present research addresses the single transportation robot used to alleviate problems of robotic cell scheduling of the machines. For the purpose of minimizing the make-span, a model of mixed-integer linear programming (MILP) has been suggested. Since the inefficiency exists in NP-hard, a decomposition algorithm posed by Bender was utilized to alleviate the problem in real life situations. The proposed algorithm can be regarded as an efficient attempt to apply optimality Bender’s cuts regarding the problem of parallel machine robotic cell scheduling in order to reach precise resolutions for medium and big sized examples. The numerical analyses have demonstrated the efficiency of the proposed solving approach.

An Effective Decomposition-Based Stochastic Algorithm for Solving the Permutation Flow-Shop Scheduling Problem

This paper presents an effective stochastic algorithm that embeds a large neighborhood decomposition technique into a variable neighborhood search for solving the permutation flow-shop scheduling problem. The algorithm first constructs a permutation as a seed using a recursive application of the extended two-machine problem. In this method, the jobs are recursively decomposed into two separate groups, and, for each group, an optimal permutation is calculated based on the extended two-machine problem. Then the overall permutation, which is obtained by integrating the sub-solutions, is improved through the application of a variable neighborhood search technique. The same as the first technique, this one is also based on the decomposition paradigm and can find an optimal arrangement for a subset of jobs. In the employed large neighborhood search, the concept of the critical path has been used to help the decomposition process avoid unfruitful computation and arrange only promising contiguous parts of the permutation. In this fashion, the algorithm leaves those parts of the permutation which already have high-quality arrangements and concentrates on modifying other parts. The results of computational experiments on the benchmark instances indicate the procedure works effectively, demonstrating that solutions, in a very short distance of the best-known solutions, are calculated within seconds on a typical personal computer. In terms of the required running time to reach a high-quality solution, the procedure outperforms some well-known metaheuristic algorithms in the literature.

Haar Algorithm for The Analysis of Fractional Order Calculus Based Computation Problems Associated With Electromagnetic Waves

This paper proposes a haar algorithm with the phase wise flow for three distinct cases of fractional order calculus-based electromagnetic wave machine problem. The numerical solution to these programming problems was presented in tabular and graphic form using precise, approximate analysis and haar schema for comparative analysis. Convergence research was also carried out to validate the accuracy and efficacy of the system suggested. The proposed scheme is suited for the numerical solution of the addressed type of computational problem due to its uncomplicated and easy-to-implement, professional, fastness and high convergence rate.

On the Mind–Machine Problem

In any formal sense, based on Gödel’s incompleteness theorems, it is difficult to conclude that the mind is anything more than a machine. But still something about the theorems invites one to wonder…

Expert System Detects Problems of Inkmaker Machine And Mixer With Forward Chaining

Industrial growth is characterized by the ability to progress in the field of production both in the type of industry, increasing the quality and volume of production activities. Machine is one of the factors of production which determines the smoothness of a production process. In order for the production process to run efficiently, a certain part of the company that is needed to support the maintenance and repair of the machine is called Maintenance Engineering. PT. Segwerk Ind is a multinational company engaged in printing inks for the packaging industry with imported raw materials such as dyes, varnish. The problem of how to maintain the condition of the machine so that it is always prime when production activities take place, Trouble machines are indeed one of the factors that can make a company go bankrupt, such as the production process is hampered, a long machine down time, so that customers will replace their suppliers because they do not want to risk business they are stunted. Therefore, for the success factor of a company's production process, it is required to have appropriate preventive and corrective maintenance activities as well as the problem of lack of competent human resources, therefore we need tools that can solve these problems. The results displayed by making expert system software show that the ink machine problem solving can be known based on the historical machine so that the downtime faced by PT. Segwerk Ind can be pressed as little as possible against machines in the ink industry such as ink printing machines.

Minimizing total completion time for flowshop scheduling problem with uncertain processing times

The four-machine flowshop scheduling problem is investigated with the objective of minimizing total completion time. Job processing times are uncertain where only the lower and upper bounds are known. This problem is common in some manufacturing environments. Some mathematical (dominance) relations are established, and an algorithm (with ten scenarios) is proposed. The proposed algorithm converts the four-machine problem to a single machine problem for which an optimal solution is known for the deterministic problem. The difference among the scenarios is related to the weights assigned to the lower and upper bounds of processing times on the machines. The proposed algorithm is further improved by the established mathematical relations and are evaluated based on extensive computational experiments. The computational results indicate that three scenarios of the proposed algorithm perform much better than the others, and the errors of these three scenarios get better as the size of the problem increases. The results are statistically verified by constructing the confidence intervals.

DUAS ABORDAGENS PARA A SOLUÇÃO DE PROBLEMAS: SOFTWARE E HISTÓRIA DA CIÊNCIA.

ResumoNosso objetivo é fornecer aos estudantes de física e engenharia dois caminhos - formal e conceitual - para resolução de problemas, e aos estudantes de cursos de outras áreas uma estratégia mais intuitiva e mais fácil de memorizar no longo prazo. Para atingir este objetivo o mesmo problema - a máquina de Atwood composta com quatro corpos - é abordado de duas formas diferentes. A abordagem formal enfoca a obtenção das equações de movimento usando a segunda lei de Newton, as restrições geométricas ou vínculos e um software de computação algébrica. A abordagem conceitual consiste em uma transferência de conhecimento da máquina de Atwood convencional. Neste caso, o raciocínio desenvolvido para resolver o problema é o mesmo que o usado para a máquina simples, só que aplicado mais de uma vez. O mesmo vale para o uso do princípio de Gauss, tal como era compreendido durante o século XIX. Um exemplo numérico mostrará que todas as abordagens levam ao mesmo resultado. Palavras-chave: máquina de Atwood; Newton; Gauss; física conceitual; habilidades formais. Abstract The aim of the present study is to provide Physics and Engineering students with two paths regarding problem solving and non-physics students with a more intuitive solving strategy and easier to memorize in the long term. To achieve this goal, the same problem is approached in two different ways: one, formal and the other, conceptual. The problem is the compound Atwood machine with four bodies. The formal approach focuses on obtaining the equations of motion using Newton's second law, stresses the role of geometric constraints and uses an algebraic computation software. The conceptual approach consists of a knowledge transfer from the simple Atwood machine problem. In this case, the thinking process for solving the compound machine problem is the same as for the simple one but it is applied more than once. The same goes for the use made of the Gauss principle, as it was understood in the 19th century. A numerical example will show that all approaches lead to the same result. Keywords: Atwood machine; Newton; Gauss; conceptual Physics; formal skills