Integrating GIS with the semantic web for cultural heritage
Posted on April 24, 2013 by Farallon Geographics Team
The SemanticWeb.com has published The Arches Project Puts A Semantic And Geo-Spatial Spin On Cultural Heritage which describes how the Arches project, a collaboration between the Getty Conservation Institute, World Monuments Fund and Farallon Geographics delivers a semantic geospatial solution for cultural heritage management.
Arches grew out of earlier work to develop MEGA-Jordan, a purpose-built GIS to inventory and manage archaeology sites at a national level for that country. Arches was designed to be more flexible, able to accommodate any country or immovable cultural heritage institution. It was also designed to be more than a GIS and inventory management system.
The Semantic Web for Cultural Heritage
Currently, many archives, libraries, museums, and other cultural heritage institutions make use of the CIDOC Conceptual Reference Model, an information standard that provides a common and extensible semantic framework describing collections and related business entities. The CIDOC CRM defines a common language and conceptual framework for domain experts and implementers. The use of a semantic framework greatly enhances accessibility to cultural heritage information, speeds integration of multiple databases and improves sharing between organizations. Importantly it also works with existing relational databases and aligns with web services.
Arches was designed to integrate the CIDOC CRM. Whereas GIS defines where something is, the CIDOC CRM represents the "who, what and when" in a machine readable form. (Machine readable is key here, because it means that the data definition must provide meaning and context so that a computer can understand the information rather than require a human to interpret it.)
In a semantic data model an entity type might be a heritage artifact, which provides an elementary category that can be easily understood. In a relational model, in contrast, you might end up with a number of different tables such as materials and techniques, designations, descriptions, etc. Each of these things represents part of what makes up the artifact, but with a semantic data model the artifact is the whole entity and its relationships rather than breaking it down into parts.
Integrating GIS with a semantic framework for cultural heritage
By integrating GIS with the semantic framework for cultural heritage, Arches breaks new ground and enables the system to make connections between cultural heritage objects that might otherwise go unobserved. Since the solution is extensible, it also means the system can continually evolve.
From the SematicWeb.com article:
"We realized early on that to do this right, we weren't going to be able to do it by defining a bunch of traditional database tables and filling them up with data," says CEO Dennis Wuthrich. "We needed to think about building an app on the ontology that let people define the kinds of things they wanted to track and the relationships between the attributes of things." With the help of the English Heritage and the Flanders Heritage Agency, which were familiar with the ontology and had the domain expertise, Farallon developed a graph database that represents the relationship of a site to its name, period, location, actors, activities, architectural heritage, and so on. It's now building the forms necessary for persons to create and manage that information.
So, if you have a building, for example, there is a semantically defined way of associating a name or set of names with it, and a semantically meaningful way of associating a suite of materials the building might be made up from, its cultural periods, its location and the various ways you can define it (geospatially or relative to its address or an administrative area). "Basically, you have a system that knows how to track these semantic relationships and how to map between something like a physical feature in the field and the data elements defined as the necessary suite of information to manage these cultural artifacts.
Arches Geospatial Asset Management System Tailored to Cultural Heritage Goes Live for Early Access
Posted on January 30, 2013 by Joe Metro
I'm pleased to announce that the cultural heritage project Farallon has been helping the Getty Conservation Institute and World Monuments Fund to build is now live for early access!
Arches is an open source, geospatial asset management system specifically tailored to the needs of the international cultural heritage field. It can inventory and document all types of immovable heritage, including buildings and other structures, cultural landscapes, heritage ensembles or districts, as well as archaeological sites.
Update Feb 25, 2013: Directions Magazine has published an article about Arches and its uses as both a technical and business solution.
We designed arches to effectively address the following cultural heritage requirements:
- Identification and inventory
- Research and analysis
- Monitoring and risk mapping
- Determining needs and priorities for investigation, research, conservation and management
- Planning for investigation, conservation, and management activities
- Raising awareness and promoting understanding among the public, as well as governmental authorities and decision makers
Arches is an evolution of our earlier work designing and developing MEGA and shares many of the same fundamental strengths including being: open source, standards-based, adaptable, multi-lingual and user-friendly for desktop, web and mobile workflows.
Below is the announcement:
Dear Friends and Colleagues,
The Getty Conservation Institute and World Monuments Fund are excited to tell you about a new, open source software application that we are developing for the heritage field. It is called Arches.
Arches is an open source geospatial information system that will be purpose-built to help heritage organizations inventory and manage all types of immovable cultural heritage. Arches is being developed to address the widespread need for low-cost electronic inventories that are easy to use and access. This collaborative effort combines state-of-the-art software development with the insights of heritage professionals from around the world.
You can find more information about Arches at http://archesproject.org.
Today, we are making available an early version of the Arches software code. Information technology specialists may download this version from https://bitbucket.org/arches/arches. We welcome you to assess it, and we hope to receive your feedback.
In June 2013, we will release a more advanced version of Arches that will be ready for heritage organizations to download, evaluate, customize, and deploy.
We encourage you to find out more about Arches, to let others know about it, and to consider more ways in which you can assist this effort.
GIS and Mapping as a Workflow Management Solution for Utility Infrastructure
Posted on January 14, 2013 by Joe Metro
One way to picture the infrastructure of almost any utility - electricity, oil, natural gas, telecommunications, etc. - is to visualize an interconnected network of different piping systems and associated components.
In the case of a water and sewage treatment facility, for example, there’s the Backwash In piping system that has a particular type of pipe and a particular type of valve. There’s the Raw Water In system with its own combination of pipes and values; the Return Activated Sludge system with its own pipes and valves; the Filter By-Pass system with yet another kind of pipe-valve combination. Etc. etc.
A small to mid-scale treatment facility can easily have 30 or more different piping systems, and over 200 layers of associated system components.
Visualizing Complex Infrastructure Assets & Processes
Tracking, visualizing, managing and communicating all of these different layers of piping, associated infrastructure assets (valves, filters, fittings, communication fiber, etc.), as well as maintenance workflows, is an essential requirement for any treatment facility. However, typically these components are accessed and managed by different departments across the organization.
For example, treatment plant infrastructure information will be catalogued in CAD software, accessible to the plant CAD engineers. For the plant supervisor who is not an AutoCAD aficionado, if they have a project to add in a new fiber communications system and want to avoid digging into an existing wastewater overflow piping system circa 2007, they would need to visit the engineering department to access the data in AutoCAD and print out the layer identifying some code for wastewater overflow piping like "SC_47W". If the supervisor wants to annotate and share this information as part of a work order, they do it on the paper printout and distribute hardcopies.
Accessible, Interactive GIS/CAD Layers
But a centralized, GIS-based solution can make this more accessible and interactive using a web based Google-map like visual interface. Any authorized user can easily view and overlay any GIS/CAD layers and associated assets. Click on a layer or feature to change labels (e.g. SC_47W becomes wastewater overflow piping) or get more detailed information about that item (e.g. built in 2007, dependent on backwash out system, etc.). Annotate, redline or draw directly on a new map layer and share this with colleagues. No CAD or GIS experience required!
Mapping as a Workflow Management Solution
From a workflow perspective, layers no matter how well labeled are not enough. Ideally when doing a project you want some way to group and categorize layers and assets related to a project. In a GIS/Mapping solution this is nothing more complicated then defining a project or category and adding in layers with associated information. Underneath every category a user can then see the layers, a description of the layer, the last time it was updated, any markup (timelines, caveats or redlines) and just about anything else you want to include. You could even save these categories and share them with colleagues.
Finally since this is all part of geo-aware database, a GIS solution enables you to run simple or advanced search queries to find specific components or higher level Meta data. You can then share the resulting search data and visual map with others.
A focus on projects and workflow is one of the most compelling features of a GIS solution for treatment facilities. By enabling custom groupings, engineers, technicians and supervisors can easily collaborate on projects and all share relevant information both visually and tabulated. For common workflow tasks such as checking to see if a dig would impact any existing systems, a GIS solution can group together and visually display all underground lines and assets in a given area that could be affected by the planned dig. Other frequent workflow tasks could similarly be defined and saved.
User interface moves GIS beyond the realm of technicians-only
Most people don’t immediately think of GIS as a workflow management tool usable by non-technicians. But at Farallon, our recent work focuses on designing GIS-based solutions with accessible, user-validated UI can be used to facilitate project management and common workflows.
eCatch 2.0 - rebuilding sustainable fisheries on the California coast using GIS
Posted on December 16, 2011 by Joe Metro
If you follow environmental news then you probably already read about eCatch, a new iPad app developed by The Nature Conservancy that gives fishermen real-time access to the latest information on where the fish are – the abundant ones they want to catch and the overfished ones they need to avoid.
The basic idea behind eCatch is that some fish are becoming endangered through overfishing, and the best way to mitigate this is to give fisherman as an industry, the tools to manage their fishery sustainably themselves.
Using eCatch, fisherman at sea, report areas where they caught overfished species and learn from other fisherman where the more abundant species are. By collaborating and sharing information in real-time, fisherman can prevent rapid declines in fish populations and rebuild robust fishing industries and communities along California’s Central Coast.
eCatch 1.0 is a web-based application that allows for:
- Visualizing the locations of catches for a variety of fishing vessels
- Developing reports that summarize the species and catch from each vessel, and as aggregates for a group of vessels
- Monitoring the progress towards catch limits
- Tracking the capture of depleted species
The results are pretty impressive so far so The Nature Conservancy has engaged Farallon Geographics to help them develop eCatch 2.0.
eCatch 2.0 will introduce significant enhancements to the UI and mapping technology to make accessing and interacting with fisheries data both more dynamic and more intuitive. It will also expand the application so it is useful to managers and administrators as well as fisherman.
Users will be able to query and visualize catch histories in order to predict trends as well as define and view reports and histories on species limits, location and amount of overfished species taken for a given time period for individual vessels and aggregated by associations.
- Fishermen will be able to see on a Google basemap of the central California coast, locations where overfished species have been caught from their vessel, as well as any other vessel.
- Fishermen will be able to display any portion of their fishing history on the map by indicating the time span and species caught.
- Managers and Administrators will be able to link to a form that allows for editing logbook data simply by clicking on a set point.
- The application will alert users when an overfished species catch event happens as soon as the data are entered into the system
Farallon is working with the Nature Conservancy on a set of web services for geospatial data access and reporting using Microsoft .NET web framework along with PostGIS/PostgreSQL, ESRI SDE, ESRI ArcGIS Server, ExtJS, and OpenLayers.
eCatch 2.0 is expected to go public sometime this year.