poster gallery

McConchie, Klinkenberg poster at GEOIDE

GEOIDE poster abstract: Interactive User Validation of Volunteered Geographic Information

Authors: Alan Mc Conchie, alan dot mcconchie at geog dot ubc dot ca and Brian Klinkenbergbrian at geog dot ubc dot ca

Department of Geography, University of British Columbia

Efforts to encourage the submission of Volunteered Geographic Information (VGI) must be tempered by the realization that unless some form of quality control is enabled the resulting information might be discounted by many who potentially could make use of such information, such as government departments.  An effective quality assurance (QA) process, while enforcing some form of oversight on the submission of information, could, at the same time, provide feedback to the users that encourages them to become even more involved volunteers.

In this poster, we illustrate our work in progress to develop an interactive validation system for VGI of invasive plant species in British Columbia. Using existing species records and ecological parameters, we have developed maps that delimit the potential range of each species, and and thus determine the likelihood that a new submission is valid or not. Based on whether a record is a geographic or ecological outlier, our system will either provide suggestions for alternative species (e.g., "could you have been looking at species Y, which looks similar to species X, but occurs at higher elevations?") or note that their record represents a significant range expansion and therefore is an important observation that would benefit from additional information. Ultimately, the volunteer receives feedback that enables them to judge the validity of their information, and encourages them to learn more about their environment.

 

Poster to follow

PosterPresentations

GEOIDE 2009 Annual Conference  

Beyond The Internet ‐ Distributing Voluntary Geographic Information Using MobileTechnology, Hanif Rahemtulla  The importance of community participation in local decision making and access to local information has been recognized as fundamental to a thriving local democracy. One of the most common mechanisms to achieve this is the Internet. Web‐based Geographical Information Systems (Web‐GIS) have also gained prominence. However, there is a link between social exclusion and digital exclusion which should not be ignored in this context. This paper gives a technical overview of the EcoTEXT system, designed to address this wikipedia, June 29, 2010: "the gap between people with effective access to digital and information technology, and those with very limited or no access at all. It includes the imbalance both in physical access to technology and the resources and skills needed to effectively participate as a digital citizen." For us, the digital divide includes access to a range of platforms, from Internet to mobile technologies. It includes the availability of data to make effective use of those technologies (e.g., a coarse resolution digital background on Google Maps may make it difficult to effectively use that technology).">digital divide by means of targeted text messages containing details of local events. Subscribers express a range of preferences as to the type of information and events of interest, and also provide information as to the distance from home they are willing to travel. Text messages are sent to their mobile phones free of charge. Using this mechanism greatly increases the potential audience for digital information held in Web‐GIS.

 

Mapping Change For Sustainable Communities, Hanif Rahemtulla In the United Kingdom the areas of East London and the Thames Gateway are facing huge and accelerating changes. If local people and communities are to engage effectively with the processes of change they need to know what is going on, to understand how proposed changes may affect them and to feel confident to play a positive role in those changes. Currently these communities face change in their areas with limited means (institutions and knowledge) to assess and influence decision‐making processes and feel excluded and alienated from the changes taking place and report that their concerns go unaddressed. As a result, some stakeholders are missing from project discussions. Mapping is a powerful way to engage local communities; to visually represent information; to provide evidence of environmental inequalities and also in helping to draw new links and ideas. Through participatory processes we developed an on‐line interactive GIS‐based map of East London which provides a central hub linking information in an accessible and policy relevant format. The map can be used to link planning proposals and development sites with flood and climate data, air and noise pollution mapping, local environmental and social issues, and projects. Most importantly, the map is continually evolving as local people are able to enter information and use the map as a mode of communication. In the long term, this map will help to develop a clearer identity of the environmental issues and inequalities which exist in East London and the Thames Gateway.

  

Governance And The Geoweb, Sieber, R., Hanif Rahemtulla, Turner, A. Public participation is increasingly recognized as essential not only to minimize the damage caused by climate change, but also to maximize the opportunities presented by a transition to a low carbon economy. Government agencies, at all scales, will need to engage the public in actual decision‐making on climate change adaptation strategies, yielding local observations on climate change effects and novel ideas for adaptation. However, the increasing complexities of emergent environmental issues (e.g. climate change) are more vexing to more traditional means of engaging the public (e.g. public meetings), while government staff confront the difficultly of summarizing, collating and integrating citizen input. eGovernment solutions such as authoritative Web mapping predominantly offer one‐way communication from government to the public and do not include effective means to collect citizen feedback nor engage citizens in two‐way dialogues. New mechanisms, like the Geospatial Web (or Geoweb), have the potential to address these challenges and present a unique opportunity for government.

GEOIDE PIV‐41 in collaboration with our international partners in Europe and the United States are examining the participatory governance potential of the Geoweb and, in particular, its potential to enable a two‐way dialogue between government and civil society. Initially, this means comparing and contrasting the participatory Geoweb and traditional P/PGIS (including web‐based P/PGIS), which is the main focus of this presentation. The terms Public Participation Geographic Information Systems (PPGIS) and Participatory GIS (PGIS) (collectively shortened to P/PGIS) were coined to situate and evaluate the role of geomatics in government decision‐making processes. Traditional geomatics has been promoted as a means to engage members of the civil society inpolicy making, although geomatics has been found to both empower and marginalize (usually simultaneously) those publics. One question is whether anything has changed with the advent of the Geoweb. The findings from this comparison will contribute to a more nuanced understanding of how citizens might act as distributed sensors for local knowledge, providing data and information that could aid their governments in addressing and developing policy and legislation that responds to this change.

 

Citizens As Environmental Change Sensors: A Case Study Of Barbados, Britta RickerThe Geoweb is unique due to its low overhead cost, its hackablity and the availability of large anddiverse data sets. Applications such as Google Earth and Google Maps are increasing the public’sawareness and comfort with geospatial thinking. The Geoweb is important to the study ofGeomatics because of the increasing number of opportunities to share spatial data. A wideaudience of Internet users has tapped into the abundance of free and straightforward applicationsavailable on the web. The Geoweb has presented an opportunity to share new types of data in theform of photographs, audio, and videos. Users are able to add their own volunteered geographicinformation (VGI) for other Internet users to observe. Further, users are able act as sensorsreporting on their local environment. This research explores the opportunity to use VGI to communicate environmental changeconcerns of Barbadians on the Geoweb. Small Island Developing States (SIDS) are particularlyvulnerable to environmental changes. Scientific data reveals that SIDSs are at high risk of losingvaluable resources to sea level rise and temperature changes. Economic hardship could occurfrom beach erosion, fewer tourists, coral bleaching, and an increase in the number and intensity ofhurricanes. Spatial data representing some of these vulnerabilities to climate change are availableto selected government officials and Non Governmental Organizations. This spatial data does notreveal what the local environmental changes mean to the people living in these regions. During this research project, I spent to Barbados two months and asked forty‐one Barbadianswhat environmental changes they have noticed. I then asked the participants to report thesechanges on a Google My Map. In this poster I will describe the results of utilizing the participatoryGeoweb to engage Barbadians in a dialogue about environmental change and their interactionwith the Geoweb. Some participants were actively engaged with the user interface while othersless so highlighting several barriers to current engagement.

 

Transitioning To The Geoweb: The Changing Face Of Online Community Atlases, Patrick Allen, Jon Corbett This poster will present on a research project that investigates the status of online community atlases in British Columbia hosted by the Community Mapping Network (CMN). Since 1997,community atlases have been developed on the premise that emerging geographical information technologies (GIT) can facilitate participation in integrated and effective community land‐use planning and implementation. The majority of atlases on the CMN are the result of collaborative efforts involving government and non‐governmental partners. They often seek to gather and distribute land‐use related information. Using online and telephone interviews, the researchers surveyed community atlas managers and coordinators for 22 of 62 CMN hosted atlases. The survey sought to determine the current status of these atlases and gain insight into future directions for use, presentation and management of spatial data. As a sub‐component of this research, we reviewed the existing and potential role for incorporating volunteered geographic information (VGI) into existing atlases, and determine issues that might emerge relating to user engagement and the management of VGI data. Of the atlases reviewed, most are now stagnant and unused; in many cases no changes or revisions have been made in over a year. Furthermore, no evaluations have been conducted on the existing data presented. Many respondents indicate that though their initial goal of providing open access to data has been met, the limited public use of the atlases does not justify the continued time, effort and funding required to manage the atlases over the long‐term. New atlases are still being developed with an awareness of these challenges and thus are increasingly attempting to be more user‐friendly, self managed and employ low cost methods of making information available and manageable. There is a growing interest the potential of the Geoweb to integrate free and open source software into atlas design, and to include interactive tools in order to engage users in accessing and contributing their own data to the atlases. However, there does not yet appear to be clarity on the best approach or model to follow in the ever changing world of GIT.

 

Predictive Mapping Of Boreal Felt Lichen (Erioderma Pedicellatum) Across The Island Of Newfoundland, Randy Skinner, Yolanda Wiersma Erioderma pedicellatum (boreal felt lichen) is on the IUCN red list as critically endangeredworldwide. The decline of boreal felt lichen populations may be linked to climate change, airpollution, and human land use. Originally, the lichen had an amphi‐Atlantic distribution from NewBrunswick to Norway. Today, only 100 individuals have been found in Nova Scotia, and it isbelieved to be extinct elsewhere. The exception is the island of Newfoundland, where over 99% ofthe known population of boreal felt lichen exists (11,000+ individuals and counting). Surveys onthe island have been carried out for more than 15 years, but most surveys have beenopportunistic, rather than systematic. This has led to the identification of two hyper‐populatedregions on the island, leaving the bulk of the island with little or no surveying effort.The province of Newfoundland and Labrador has developed a five year management plan toprotect the species, as well as encourage further scientific research. One aspect of themanagement plan calls for systematic, predictive habitat mapping of possible boreal felt lichenhabitat across the island. We are developing a predictive habitat model that can be used andadapted with boreal felt lichen on a stand level resolution for the entire island. By using ArcGIS,and investigating the biological, ecological and geospatial patterns of existing boreal felt lichensites around the island of Newfoundland, a suite of statistical models will be developed. Akiake’sInformation Criterion (AIC) will be used to for model selection to develop the final predictive map.Observation data will be reserved for model validation and further model refinement.The development of a working predictive habitat model will streamline future survey effortsaround the island, help researchers better understand the spatial distribution of the species, andits habitat requirements, as well as aid in determining development and land‐use practices inareas that are deemed suitable habitat for boreal felt lichen.

 

Participation On The Geoweb: Map‐Based Discussion To Engage Residents In Local ClimateChange Response And Adaptation, Insoo (Steven) Chung, Aaron Sani, Jacqueline Young,Claus Rinner The consequences of climate change concern numerous stakeholders, including governments,NGOs and the general public, in matters pertaining to environment, health, and security. Thecomplex nature of climate change, however, involves large amounts of information and opinionsoften in a format not conducive to comprehension and contribution during the policy‐makingprocess. Furthermore, the consequences of climate change are inherently local in nature, and thusgeography is a critical component in the discussion. The Pilot Project PP‐041 promotes the use of the geospatial Web 2.0 for engaging the public inclimate change response and adaptation. One of the case studies is being prepared in the contextof the Live Green Toronto initiative where “community animators” are engaging residents ingreenhouse gas reduction and green living. The goals for this project, therefore, are to 1) developan open Web‐based platform to engage the public while avoiding limits imposed by geographyand time, 2) stimulate and facilitate local discussion and action, 3) provide a forum by whichadaptation strategies and policies to cope with the impacts of climate change can be developed ina collaborative manner, and 4) assess the effectiveness of this approach. In this project, we use an argumentation mapping tool, which enables stakeholders to access andmore importantly contribute information to the policy process through spatially referenceddiscussion. The Argoomap tool is an open‐source discussion forum based on Google Maps. Itleverages open APIs and Web standards at the front‐end, and has a back‐end architecture thatallows for further extensibility (e.g. integration of Twitter and SMS‐based discussions). OGCcompatibility for viewing discussions, and including geoprocessing and spatial decision support isenvisioned for future versions. The tool has potential applications in a number of other fields, including public health and disasterresponse. For example, information regarding areas affected can be contributed during a naturaldisaster by the public, helping in directing people and prioritizing resource use. In addition,discussion of health issues affecting the community can be used to direct support services.Organizations and communities may find the Geoweb useful for increasing public participation inall aspects of society.

 

The Geoweb Goes Wild: Developing A Participatory Geoweb Site As An Aid In DeterminingRare Species Distribution, Randy Skinner, Yolanda Wiersma Erioderma pedicellatum (Ep), or boreal felt lichen, is critically endangered worldwide.Newfoundland currently has 95% of the known world population. The province of Newfoundlandand Labrador has developed a five year management plan to assess the spatial distribution of Epon the island. Surveys in the past have been largely opportunistic and focused on two hyperpopulated regions on the island. The provincial government has restricted use and development in regions where Ep has been found. To facilitate public awareness, as well as foster stewardship practices, our project will tap into theuse of participatory Geoweb applications to gauge public awareness of the species in the province.Our project has two‐fold focus. Web 2.0 widgets and applications will be used to develop a mapbased interactive website so that users can pinpoint Ep sightings, add photos, or post forum info online. Web‐based aids will be provided to give the novice lichen hunter information and fieldtools to find and identify Ep. The ultimate goal is to determine the amount and degree of publicinput with Ep – a species that is still relatively unknown to the general public (uncharismatic), witha secondary objective of gathering more information on the spatial distribution of Ep.The second focus of our project will be to expand the Geoweb to allow for citizen‐derivedobservation about a suite of species, some of which will be more well‐known (charismatic) to thepublic. Public participation will be measured with each species via web statistics and usergeneratedinput, noting the types of users, and the amount of participation and interest with eachspecies. This project is part of a larger Phase IV Project (Team 41) on the Participatory Geoweb,which is being led by Dr. Renee Sieber of Mc Gill University.

 

Networking Farmers Markets And Consumers ‐ The Growing Pains Of Desktop To Server,Side, Korbin Dasilva This poster shows a geospatial application that networks rural farmers and the products theyproduce to urban consumers of famer market goods. The project moves away from traditionalgeomatics software such as ArcGIS to focus on web‐based applications on a Geoweb platform(the latter sometimes referred to as Neogeography). In the application, a web browser acceptsinformation from farmers on what products they offer on what days and where. Thisinformation is then stored via the web server in a MySQL database. On the consumer side,consumers of farmer market goods are prompted by a widget asking what products theyprefer, where they live, and what days they wish to shop. A query is formed from the data inthe widget and sent to the web server and then to the MySQL database. The appropriate datais returned to the web browser and a Google Map API for easy viewing. What the consumersee is a Google Map fixing their location and the location of the farmers’ retail outlets thatmatch the requested query. The project encapsulates a number of different programmingscripts, languages and development environments that are often unknown to the averagegeographer, including MySQL, PHP, HTML, Javascript and Apache. The poster also focuses onthe often awkward switch from traditional desktop GIS to server side applications. Many mayfeel confident doing complex analysis on traditional GIS, but when one moves to the unfamiliarrealm of server side applications numerous new challenges emerge. My poster will addressthis switch and how to make it less painful for the traditional geomatics/geography student in university.

 

Skinner presentation at GEOIDE 2009

Skinner presentation at GEOIDE 2009

The Geoweb Goes Wild: Developing A Participatory Geoweb Site As An Aid In Determining Rare Species Distribution, Randy Skinner, Yolanda Wiersma Erioderma pedicellatum (Ep), or boreal felt lichen, is critically endangered worldwide. Newfoundland currently has 95% of the known world population. The province of Newfoundland and Labrador has developed a five year management plan to assess the spatial distribution of Ep on the island. Surveys in the past have been largely opportunistic and focused on two hyperpopulated regions on the island. The provincial government has restricted use and development in regions where Ep has been found. To facilitate public awareness, as well as foster stewardship practices, our project will tap into the use of participatory Geoweb applications to gauge public awareness of the species in the province. Our project has a two‐fold focus. Web 2.0 widgets and applications will be used to develop a map-based interactive website so that users can pinpoint Ep sightings, add photos, or post forum info online. Web‐based aids will be provided to give the novice lichen hunter information and field tools to find and identify Ep. The ultimate goal is to determine the amount and degree of public input with Ep – a species that is still relatively unknown to the general public (i.e., uncharismatic), with a secondary objective of gathering more information on the spatial distribution of Ep. The second focus of our project will be to expand the Geoweb to allow for citizen‐derived observation about a suite of species, some of which will be more well‐known (charismatic) to the public. Public participation will be measured with each species via web statistics and user-generated input, noting the types of users, and the amount of participation and interest with each species. This project is part of a larger Phase IV Project (Team 41) on the Participatory Geoweb, which is being led by Dr. Renee Sieber of Mc Gill University.

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