Research on the Design of Community Museums Based on the Fuzzy Comprehensive Evaluation Method

The new museum movement of the twentieth century has driven the development of the form and function of museums around the world. Museums began to be actively open to the public, and some new concepts of museums, such as eco-museums and community museums, emerged. The aim of these museums is to build a cultural bridge between people and the city and to promote the harmonious development of society, economy, and culture. The visitors, as the service targets of the museum, will directly influence the popularity of the museum among the masses by their evaluation of the museum experience; however, at present, there is a clear gap between the design of many museums and the feedback of subsequent visitors’ experiences. Only by understanding visitors’ feelings and preferences can subsequent museum design be improved; this paper will focus on demonstrating the application of the mathematical idea of the fuzzy comprehensive evaluation method to community museums; it establishes a community museum quality evaluation system based on human-centered design principles from the perspective of urban community museums and constructs a fuzzy comprehensive evaluation model of a community museum experience. Finally, the design of a community museum in Nottingham, UK, is used as an example to make a comprehensive evaluation of its quality. According to the analysis, the fuzzy comprehensive evaluation method has practical value in scientifically evaluating the quality of urban community museums through data on the visitor experience

A Review of the Major School Counseling Policy Studies in the United States: 2000-2014

Jay Carey and Ian Martin conducted a review of the major policy studies concerning school counseling in the United States. The authors located 37 documents disseminated between 2000 and 2014 that were either intentionally written with a focus on policy implications or were frequently used to attempt to influence policy decision-making. Their review is organized by types of policy studies: Literature Reviews, Survey Research, Statewide Evaluations of School Counseling Programs, State Evaluations of School Counseling Practice, Existing Database Investigations of School Counseling, Research Identifying Elements of Exemplary Practice, Studies of Evaluation Capacity and Practices in School Counseling

A theoretical model for the application of Web 2.0 in e-Government

Government organisations in many countries have started embracing modern technologies such as second generation web (Web 2.0) in an attempt to maximize on the benefits of these technologies as well as keeping up with the current trend. Nevertheless, the advancement and the adoption of these of technologies is in its initial stages in the public sector. Therefore, the research problem is that the literature surrounding the application of Web 2.0 is still highly tentative and exploratory. In particular, there is a lack of research exploring the application of Web 2.0 technologies in the context of local e-Government. This study aims to address this research problem by presenting a comprehensive decision-making tool to aid the effective application of Web 2.0 technologies amongst local government authorities (LGAs). In doing so, resulting in the development of a theoretical model that is underpinned by information systems evaluation criteria and impact factors of Web 2.0 from an internal organizational perspective. By addressing the research problem, this study will make a significant contribution to the normative literature by providing new insights of Web 2.0 technologies within the public sector. This will be of specific relevance to scholars, policy makers, LGAs and practitioners who are interested in the adoption of Web 2.0 technologies in an e-Government context. This paper presents the proposed theoretical model and is largely devoted to an explanation on the development of the model

The interaction of lean and building information modeling in construction

Lean construction and Building Information Modeling are quite different initiatives, but both are having profound impacts on the construction industry. A rigorous analysis of the myriad specific interactions between them indicates that a synergy exists which, if properly understood in theoretical terms, can be exploited to improve construction processes beyond the degree to which it might be improved by application of either of these paradigms independently. Using a matrix that juxtaposes BIM functionalities with prescriptive lean construction principles, fifty-six interactions have been identified, all but four of which represent constructive interaction. Although evidence for the majority of these has been found, the matrix is not considered complete, but rather a framework for research to explore the degree of validity of the interactions. Construction executives, managers, designers and developers of IT systems for construction can also benefit from the framework as an aid to recognizing the potential synergies when planning their lean and BIM adoption strategies

Development of dynamic recursive models for freeway travel time predictions

Traffic congestion has been a major problem in metropolitan areas, which is caused by either insufficient roadway capacity or unforesceable incidents. In order to promote the efficiency of the existing roadway networks and mitigate the impact of traffic congestion, the development of a sound prediction model for travel times is desirable. A comprehensive literature review about existing prediction models was conducted by investigating the advantages, disadvantages, and limitations of each model. Based on the features and properties of previous models, the base models including exponential smoothing model (ESM), moving average model (MAM), and Kalman filtering model (KFM) are developed to capture stochastic properties of traffic behavior for travel time prediction. By incorporating KFM into ESM and MAM, three dynamic recursive prediction models including dynamic exponential smoothing model (DESM), improved dynamic exponential smoothing model (JDESM), and dynamic moving average model (DMAM) are developed, in which the time-varying weight parameters are optimized based on the most recent observation. Model evaluation has been conducted to analyze prediction accuracy under various traffic conditions (e.g., free-flow condition, recurrent and non-recurrent congested traffic conditions). Results show that the IDESM in general outperforms other models developed in this study in prediction accuracy and stability. In addition, the feature and logic of the IDESM lead to its high transferability and adaptability, which could enable the prediction model to perform well at multiple locations and deal with complicated traffic conditions. Besides the proficient capability, the IDESM is easy to implement in the real world transportation network. Thus, the IDESM is proven an appealing approach for short-time travel time prediction under various traffic conditions. The application scope of the IDESM is identified, while the optimal prediction intervals are also suggested in this study

Funding the Extraordinary: An Evaluation of The Kresge Foundation Arts and Culture Program's Institutional Capitalization Grantmaking

In undertaking an assessment of Kresge's Capitalization Program, NFF applied its own high-level framework to help answer Kresge's primary research questions and assess the progress of each grantee in meeting its stated capital targets. NFF has found that effective capitalization in the nonprofit sector requires attention to three key financial priorities: liquidity, adaptability and durability:1. Liquidity: Does the organization have adequate cash to meet its operating needs?2. Adaptability: Does the organization have flexible funds that allow it to make adjustments as circumstances change?3. Durability: Does the organization have sufficient resources to address the range of needs that it may face in future years?NFF's review of Kresge's grantees sought to assess capitalization by looking for evidence of organizational progress in building liquid funds for immediate operating needs, as well as longer-term balance sheet savings for adaptability and durability. NFF's evaluation of grantees involved a combination of data analysis and interviews

Exploration and mining evaluation system and price prediction of uranium resources

Purpose. The paper introduces the development of the Uranium Resources Technical and Economic Evaluation Expert System (URTEEES) from the viewpoint of requirement analysis, system design, functional structure and application etc. Methods. The system is based on C/B/S mixed mode and applies ASP.NET technology with .Net Framework being selected as the development platform as well as the uranium resources database providing data support at the bottom layer. The paper also proves the efficiency of the system in the context of certain case studies. Findings. Since the system can performs the functions of scenario analysis, sensitivity analysis, shareholder’s returns analysis, horizontal comparison of different projects, it can improve the ability of project senior decision-makers for rapid response to the rivals and meet the demand of pricing negotiations. Moreover, the system demonstrates its efficiency in the context of case studies as the system incorporates a number of advanced methods, e.g. the Quantum Particle Swarm Optimization (QPSO) Back Propagation (BP) QPSO-BP model which can improve the generalization ability of BP network to predict the uranium price. Originality. Technical and economic evaluation model can be set up by users independently according to the current stage of a project (mainly, these are exploration stage, development stage and production stage) as well as according to the selected mining method (e.g. underground mining, surface mining, or in-situ leaching mining). Then, the technical and economic evaluation parameters can be generated. By means of inputting the value of each parameter in a simple and convenient way, the evaluation results can be calculated directly and shown in the form of diagrams; moreover, feasibility evaluation report can be generated automatically, making the process of technical and economic evaluation accurate and efficient. Practical implications. URTEEES performs the functions of decision-making analysis, metal resources database management, data management, comprehensive query etc. The system is a good basis for further development of other expert systems.Мета. Розробка експертно-аналітичної системи техніко-економічного оцінювання запасів урану з точки зору аналізу вимог, системи проектування, функціональної структури і напрямів застосування. Методика. Проектна система повинна включати два основні блоки. Перший – існуючі дані щодо оцінки ресурсів урану для отримання відповідних параметрів, які можуть бути використані для створення моделей оцінки й забезпечення основи для їх порівняння при оцінці нового проекту. Другий – допоміжна інформація, така як закони і правила, культурна інформація, яка насправді є накопиченням даних проекту і досвіду. Пропонована система заснована на використанні комбінованого режиму C/B/S; при цьому система використовує технологію ASP.NET с Nеt Framework, обрану в якості платформи розробки, а також базу даних по запасах урану, що забезпечує інформаційну підтримку на нижньому рівні. Результати. Розроблена нова система URTEEES виконує функції імовірнісного аналізу, аналізу чутливості, аналізу прибутковості для акціонерів, а також горизонтальне порівняння різних проектів, отже, може поліпшити результативність прийняття рішень керівниками проекту для швидкого реагування на дії конкурентів, крім того, дана система відповідає вимогам процесу ціноутворення. Реалізація проектної системи показує високу ефективність, оскільки включає в себе безліч методів з поліпшеними характеристиками, наприклад, модель QPSO-BP, яка удосконалила узагальнюючі можливості нейронної мережі ВР з метою оптимізації та ефективного прогнозування ціни на уран. Наукова новизна. В системі розроблена модель техніко-економічного оцінювання в залежності від стадійності реалізації проекту (в основному, це стадія геологорозвідувальних робіт, стадія розробки родовища і стадія промислового видобутку), а також способу ведення гірничих робіт (наприклад, підземні гірничі роботи, відкриті гірничі роботи або ж роботи, пов’язані з підземним вилуговуванням), а результати оцінювання можна безпосередньо підрахувати і представити наочно у вигляді діаграм. Крім того, представляється можливим автоматично сформувати техніко-економічне обґрунтування, що дозволяє зробити процес техніко-економічного оцінювання точним і ефективним. Практична значимість. Система URTEEES дозволяє виконувати функції аналізу процесу прийняття рішень, управління базою даних запасів металів, управління даними, універсальної пошукової системи в гірничодобувній промисловості.Цель. Разработка экспертно-аналитической системы технико-экономического оценивания запасов урана с точки зрения анализа требований, системы проектирования, функциональной структуры и применения. Методика. Проектная система должна включать два основных блока. Первый – существующие данные об оценке ресурсов урана для получения соответствующих параметров, которые могут быть использованы для создания моделей оценки и обеспечения основы для их сравнения при оценке нового проекта. Второй – вспомогательная информация, такая как законы и правила, культурная информация, которая на самом деле является накоплением данных проекта и опыта. Предлагаемая система основана на использовании комбинированного режима C/B/S; при этом система использует технологию ASP.NET с Net Framework, выбранную в качестве платформы разработки, а также базу данных по запасам урана, что обеспечивает информационную поддержку на нижнем уровне. Результаты. Разработанная система выполняет функции вероятностного анализа, анализа чувствительности, анализа доходности для акционеров, а также горизонтальное сравнение различных проектов, следовательно, может улучшить результативность принятия решений руководителями проекта для быстрого реагирования на действия конкурентов; кроме того, данная система соответствует требованиям процесса ценообразования. Реализация проектной системы показывает высокую эффективность, поскольку включает в себя множество методов с улучшенными характеристиками, например, модель QPSO-BP, которая усовершенствовала обобщающие возможности нейронной сети BP с целью оптимизации и эффективного прогнозирования цены на уран. Научная новизна. В системе разработана модель технико-экономического оценивания в зависимости от стадийности реализации проекта (в основном, это стадия геологоразведочных работ, стадия разработки месторождения и стадия промышленной добычи), а также способа ведения горных работ (например, подземные горные работы, открытые горные работы или же работы, связанные с подземным выщелачиванием), а результаты оценивания можно непосредственно подсчитать и представить наглядно в виде диаграмм. Кроме того, представляется возможным автоматически сформировать технико-экономическое обоснование, что позволяет сделать процесс технико-экономического оценивания точным и эффективным. Практическая значимость. Система URTEEES позволяет выполнять функции анализа процесса принятия решений, управления базой данных запасов металлов, управления данными, универсальной поисковой системы в горнодобывающей промышленности.This research project is made possible through the financial support from National Natural Science Foundation of China (No.51374242, No.51404305 and No.51504286)