AiGERM: A logic programming front end for GERM

AiGerm (Artificially Intelligent Graphical Entity Relation Modeler) is a relational data base query and programming language front end for MCC (Mission Control Center)/STP's (Space Test Program) Germ (Graphical Entity Relational Modeling) system. It is intended as an add-on component of the Germ system to be used for navigating very large networks of information. It can also function as an expert system shell for prototyping knowledge-based systems. AiGerm provides an interface between the programming language and Germ

A Brief History of Web Crawlers

Web crawlers visit internet applications, collect data, and learn about new web pages from visited pages. Web crawlers have a long and interesting history. Early web crawlers collected statistics about the web. In addition to collecting statistics about the web and indexing the applications for search engines, modern crawlers can be used to perform accessibility and vulnerability checks on the application. Quick expansion of the web, and the complexity added to web applications have made the process of crawling a very challenging one. Throughout the history of web crawling many researchers and industrial groups addressed different issues and challenges that web crawlers face. Different solutions have been proposed to reduce the time and cost of crawling. Performing an exhaustive crawl is a challenging question. Additionally capturing the model of a modern web application and extracting data from it automatically is another open question. What follows is a brief history of different technique and algorithms used from the early days of crawling up to the recent days. We introduce criteria to evaluate the relative performance of web crawlers. Based on these criteria we plot the evolution of web crawlers and compare their performanc

Material Potential | Recontextualizing Material Libraries

Material libraries are growing resources that offer an opportunity for artists and designers to discover a variety of materials. These collections are composed in a traditional taxonomy, pairing materials based on composition. Samples are typically commercially made and are displayed independent of context, means of production, cultural significance, and application. Through making we learn a material’s potential: the transformation it can make, the form it can take, and the new composites we can create. This generative experience lives in the studio and workshop. But how can we introduce this language of process, critical thinking, and making to activate and challenge a material—and a maker’s—potential within the context of the library? In an effort to gather a response to this consideration for material potential within a material library, I conducted a series of interaction- and experience-based surveys to collect the emotional, associative, and logical qualities of materials. I have translated this research into a discursive method for navigating the traditional taxonomy Material Potential | Abstract and linear structure of a material library. This tool challenges the visitor to collect, arrange, and annotate their own collection and classification of materials based on a series of prompts that draw attention to materials’ aesthetic, ephemeral, and ontological qualities. The way we place objects in an arrangement generates a dialogue between materials in terms of their qualities, components, and process that parallels the way we view and discuss works of art and design in the studio, museum, or through user interaction. Introducing this new material rhetoric—juxtaposed against the static structure of the material library—recontextualizes a material’s potential and provides a foundation for the infinite arrangements, associations, and applications

Integration of historical GIS data in a HBIM system

The integration between BIM (Building Information Modeling) and GIS (Geographic Information System) is currently a highly debated research topic. However, the effective integration of the two workflows in a unique information system is still an open research field, especially when dealing with Cultural Heritage (CH). The paper describes an ongoing research on the development of a web information system able to integrate BIM and GIS data, with particular focus on the analysis of the historicized city and its main buildings over time. Three main aspects, in particular, are considered more relevant: (i) conceptual data organization to integrate GIS and BIM in a single environment; (ii) integration of data belonging to different historical periods for analyses over time (4D); (iii) integration into the system of datasets already structured in pre-existing HGIS and HBIM. Most (if not all) of the attributes must be linked with both 2D and 3D entities. The system should be queryable and with the possibility to edit the information regardless of the actual focus of the current user, either if he is more BIM or GIS oriented. This is one of the main requirement for the system not to be just a simple viewer of BIM and GIS data in a unique software environment. The system can manage, from a spatial point of view, different scales of detail, allowing the connection between data from the architectural scale to the territorial one and, from a temporal point of view, data belonging to different periods. All these features have been designed to meet, in particular, the requirements of CH and realize a Historical BIM-GIS system. Besides, the web architecture allows sharing information even between actors with different digital skills, without the need for specific software installed, and ensures portability and access from mobile devices

Web Based Communication

ATELCOMA Application of Teleworking in Construction Management Leonardo da Vinci Programm - No P/98/2/05349/PI/II.1.1.c/FP