[en] MESSAGE OPTIMIZATION AND BALANCING OF MULTIPLAYER GAMES / [pt] OTIMIZAÇÃO DE MENSAGENS E BALANCEAMENTO DE JOGOS MULTI-JOGADOR

LAURO EDUARDO KOZOVITS

29 March 2004

[pt] A tecnologia de jogos multi-jogador é uma especialização dentro da área de ambientes virtuais distribuídos. Com a crescente popularidade de jogos pela Internet, torna-se interessante analisar os seus principais problemas e encontrar soluções de arquiteturas destes ambientes, a fim de adaptá-las para as necessidades específicas destes jogos. Uma arquitetura híbrida usando as abordagens cliente- servidor e peer-to-peer é proposta e implementada neste trabalho, visando atender uma certa classe de jogos multi- jogador. Com o objetivo de permitir uma eficiente transmissão de objetos criados entre os jogadores durante uma sessão, é proposta uma alteração em sua forma de representação geométrica. É mostrado que técnicas de modelagem de mais alto nível como CSG ou Metaball podem ser usadas para permitir esta transmissão eficiente sob certas circunstâncias. É também proposta uma técnica eficiente de representação e transmissão de coordenadas do ambiente virtual usando campos de bits. / [en] Multiplayer game technology is a specialized field in networked virtual environments (Net-VE). With the increasing popularity of Internet games, the analysis of their main problems and the search for an architecture for these environments has become interesting in order to adapt them to the specific needs of these games. A hybrid architecture using both client-server and peer-to-peer approach is proposed and implemented in this work for a certain class of multiplayer games. In order to provide an efficient transmission of user created objects among players during a session, a change in its geometrical representation is proposed. It is showed that the use of higher level object representation such as CSG or Metaball modeling techniques can be used to provide this efficient transmission under certain circumstances. It is also proposed the use of bitfields as a efficient way to both represent and transmit coordinates of the virtual world.

[pt] AMBIENTES VIRTUAIS

[en] VIRTUAL ENVIRONMENTS

[pt] JOGO

[en] GAME

[pt] ARQUITETURA CLIENTE-SERVIDOR

[en] CLIENT-SERVER ARCHITECTURE

[pt] BALANCEAMENTO DE JOGOS

[en] GAME BALANCE

[pt] TRANSMISSAO PROGRESSIVA

[en] PROGRESSIVE TRANSMISSION

[pt] COMPRESSAO GEOMETRICA

[en] GEOMETRY COMPRESSION

Разработка и интеграция мобильного приложения на базе Android для оптимизации рабочих процессов в системе 1С с применением моделей машинного обучения : магистерская диссертация / Development and integration of an Android-based mobile application for optimizing work processes in the 1C system using machine learning models

Старков, Е. В., Starkov, E. V.

January 2024

The object of the study is the 1C system and the processes associated with its use and optimization. The purpose of the work is to develop and implement a mobile application for optimizing work processes in the 1C system using machine learning technologies. The research methods include analyzing the current state of the system, designing the application architecture, integrating with the existing system, as well as training and implementing machine learning models. Results of the work and their novelty: during the work, a mobile application with an optimized user interface and improved performance was developed. Machine learning models were implemented to predict and automate some processes. The novelty lies in the integrated approach to optimizing the 1C system using modern technologies and methods. Scope of application of results: The developed mobile application can be used in various organizations using the 1C system for automation of accounting and management accounting. This can increase the efficiency and ease of use of the system. Recommendations for implementation or results of implementation of the results of research work: it is recommended to gradually implement the mobile application in the work processes of the organization, taking into account the specifics of its activities. The results of the implementation show a significant improvement in the productivity and ease of use of the 1C system. Economic efficiency or significance of the work: Implementation of the mobile application allows you to reduce the time spent on routine operations and improve the accuracy of forecasting, which in turn leads to a decrease in operating costs and an increase in the overall efficiency of the organization. Forecast assumptions on the development of the research object: In the future, it is possible to expand the functionality of the mobile application, including new modules and integrations, as well as further improve machine learning models for more accurate forecasting and automation of processes. / Объектом исследования является система 1С и процессы, связанные с её использованием и оптимизацией. Цель работы — разработка и внедрение мобильного приложения для оптимизации рабочих процессов в системе 1С с применением технологий машинного обучения. Методы исследования включают анализ текущего состояния системы, проектирование архитектуры приложения, интеграцию с существующей системой, а также обучение и внедрение моделей машинного обучения. Результаты работы и их новизна: в ходе работы было разработано мобильное приложение с оптимизированным пользовательским интерфейсом и улучшенной производительностью. Внедрены модели машинного обучения для прогнозирования и автоматизации некоторых процессов. Новизна заключается в комплексном подходе к оптимизации системы 1С с использованием современных технологий и методов. Область применения результатов: Разработанное мобильное приложение может быть использовано в различных организациях, использующих систему 1С для автоматизации бухгалтерского и управленческого учета. Это может повысить эффективность и удобство пользования системой. Рекомендации по внедрению или итоги внедрения результатов научно-исследовательской работы: рекомендуется поэтапное внедрение мобильного приложения в рабочие процессы организации с учетом специфики её деятельности. Итоги внедрения показывают значительное улучшение производительности и удобства использования системы 1С. Экономическая эффективность или значимость работы: Внедрение мобильного приложения позволяет сократить затраты времени на выполнение рутинных операций и улучшить точность прогнозирования, что в свою очередь приводит к снижению операционных расходов и повышению общей эффективности работы организации. Прогнозные предположения о развитии объекта исследования: В будущем возможно расширение функционала мобильного приложения, включая новые модули и интеграции, а также дальнейшее улучшение моделей машинного обучения для более точного прогнозирования и автоматизации процессов.

MASTER'S THESIS

1C SYSTEM OPTIMIZATION

MOBILE APPLICATION

MACHINE LEARNING

CLIENT-SERVER ARCHITECTURE

API INTEGRATION

OFFLINE MODE

DATA SYNCHRONIZATION

МОБИЛЬНОЕ ПРИЛОЖЕНИЕ

МАШИННОЕ ОБУЧЕНИЕ

ИНТЕГРАЦИЯ API

ОФФЛАЙН-РЕЖИМ

СИНХРОНИЗАЦИЯ ДАННЫХ

Impactos da varia??o de aplica??es e de hardware local na vaz?o de redes de computadores com virtualiza??o de desktops

Oliveira, Vitor Chaves de

10 December 2012

Made available in DSpace on 2016-04-04T18:31:36Z (GMT). No. of bitstreams: 1 Vitor Chaves de Oliveira.pdf: 1928054 bytes, checksum: 49bf6198a68438069d6ef8b9a2ec77e9 (MD5) Previous issue date: 2012-12-10 / In recent years, virtualization computing has become a worldwide reality present in datacenters servers of most organizations. The motivations for the use of this solution are focused primarily on cost reduction and increases in availability, integrity and security of data. Based on these benefits, recently it was started the use of this technology for personal computers as well. That is, for desktops, giving birth to the so-called desktop virtualization. Given the technical advantages of the approach, its growth has been so significant that, before 2014, it is expected to be present in over 90% of organizations. However, this new method is completely based on a physical client-server architecture, which increases the importance of the communication network that makes this technique possible. Therefore, analyzing the network in order to investigate the effects according to the environment implemented, becomes crucial. In this work it s varied the local s client hardware and the application, i.e. the service used. The purpose was to detail their effects on computer networks in a Quality of Service (QoS) parameter, throughput. Secondarily are outlined perceptions regarding the Quality of Experience (QoE). / Nos ?ltimos anos, a virtualiza??o computacional se tornou uma realidade nos servidores presentes nos data-centers da maioria das organiza??es no mundo. As motiva??es para o emprego desta solu??o est?o centradas, primordialmente, na redu??o de custos e em aumentos na disponibilidade, na integridade e na seguran?a dos dados. Com base nestes benef?cios, recentemente, se come?ou a aproveitar esta tecnologia tamb?m para os computadores pessoais. Isto ?, para os desktops, dando origem a chamada virtualiza??o de desktop. Dadas as vantagen t?cnicas da abordagem, seu crescimento tem sido t?o expressivo que, antes de 2014, se espera que ela esteja presente em mais de 90% das organiza??es. Todavia, este m?todo ? totalmente baseado em uma arquitetura cliente-servidor f?sica, o que aumenta a import?ncia da rede de comunica??o que torna a t?cnica poss?vel. Logo, analisar a rede, a fim de investigar os impactos de acordo com o ambiente implementado, se torna fundamental. Neste trabalho variamos o hardware local do cliente e a aplica??o, isto ?, o servi?o utilizado. A finalidade foi a de detalhar seus efeitos, em redes de computadores, em um par?metro de Qualidade de Servi?o (QoS), a vaz?o. Secundariamente s?o esbo?adas percep??es de Qualidade da Experi?ncia (QoE).

virtualiza??o de desktop

redes de computadores

qualidade de servi?o (QoS)

qualidade da experi?ncia (QoE)

arquitetura cliente-servidor

thin client

consumo de energia el?trica

desktop virtualization

computer networks

quality of service (QoS)

quality of experience (QoE)

client-server architecture

thin client

electric energy consumption

Klient-server mobilní aplikace se zpracováním obrazu / Client-Server Mobile Application with Image Processing

Černošek, Bedřich

January 2018

The main goal of this work is creating client-server application with image processing and cryptographic verification of image source and creation time. The work focuses on creating a mobile client application on the Android platform that securly takes photos by mobile device camera, processes captured images and provides a digital signature, timestamp and GPS location. The main part of the work is secure key exchange, encrypted communication, data and energy efficiency of the client-server application. The server application is implemented on the Java EE platform and processes the received image, performs object detection, object recognition in the image and provides a timestamp from a trusted server. Then taken photo can be considered as a trusted electronic document usable as valid evidence for the judical or administrative proceedings.