cost actions: energic, mapping and the citizen sensor
DESCRIPTION
A presentation given during the COST Session in HAICTA 2013 (Cofru, Greece) about the aims and work of two COST Actions: ENERGIC (IC1203) and Mapping and the citizen sensor (TD1202). The presentation was put together by Cristina Capineri, Giles Foody and Vyron Antoniou.TRANSCRIPT
Mapping and the Citizen Sensor
Vyron AntoniouMajor, MSc, PhDHellenic Military Geographical Service UCL, Honorary Research Fellow COST/ ENERGIC (WG 2) Corfu, 21 Sep 2013
Web 2.0 Impact of Web 2.0 on GI The Scientific Field General Innovative Features Research Challenges Technology Issues COST Actions Ongoing Research Why User Generated Spatial Content/VGI?
Overview
Web 2.0
Impact of Web 2.0 on GI
Impact of Web 2.0 on GI
The Crowd and the Sensors
Scientific Field
• Crowdsourced information (user generated spatial content)
• New and burgeoning
• Unexpected and unsolicited
• Open access and free of costs
• Mainly produced by non-experts (“smart mobs”)
• Unfiltered, non standardized
Participative approach: Common-based peer knowledge production; «collective intelligence»
“Prosumers”: People as producers and users of information
Multidisciplinary & Related fields: Crowdsourcing, Citizen Science, User Generated Spatial Content, collective intelligence, Geoweb, Geocomputing, social sciences...
General Innovative Features
Research Challenges Big Data – size of datasets, efficient spatial and temporal algorithms
Information integration (multi-source, multi-disciplinary, multi-temporal, multi-media, multi-lingual)
Statistical problems of integration – development of suitable analysis techniques
Retrival and storage (API, content base, privacy restriction, ..) with spatial analysis capabilities
Trust, reputation and quality
Socio-technical aspects: motivations, incentives, behaviour
Technology Issues Elaborate tools and processes for top-down and bottom-up modeling
Tools and processes for analysis
Integrate web 2.0 and ICT developments
Elaborate simple formats to capture contents, flexible API’s to access and manipulate it
Technologies for public participation and to enable people to become sensors (fixed and mobile networks)
“Accurate and timely maps are a production in a changing world is a major scientific and practical
grand challenge”
ICT COST Action TD1202
Mapping and the citizen sensor
Software and methodologies for harnessing geographic information
from the crowd
ICT COST Action IC1203
COST Actions
WG 1 – Acquiring and managing VGI
WG 2 – Understanding and influencing contributors
WG 3 – Map production
WG 4 – Map evaluation activities
Mapping and the citizen sensor
ENERGICWG 1 – Societal and human aspects of VGI
WG 2 – VGI and Data Quality
WG 3 – Semantics, data analysis, data modelling, data integration and visualization.
Ongoing research
Neis et al. 2013
Un. of Siena, Ladest Lab.OSM Completeness
OSM Positional Accuracy
Haklay et al. 2010
Antoniou 2011
Geo Tweets
Urban OSM
Calibration of new models of people movement and spatial cognition
Mapping and Navigation, Social Networks, Civic/ Governmental Applications, Emergency Reporting
Study of VGI as social practice (producer’s types such as neophyte, amateur, professionals..)
Address global issues (climate change, pandemics, public health, security, ..)
Territorial marketing (tourism, estate values…), Management of natural disaster, Advertising
Provide ground information to integrate remote sensed information and records
Why VGI? (What can be done)
...“Critics dubbed the laser ‘a solution looking for a problem.’ In fact, it took years for many potential uses of the laser to be recognized, and new laser applications are still being discovered today”…
Why Laser?
...“Critics dubbed the laser ‘a solution looking for a problem.’ In fact, it took years for many potential uses of the laser to be recognized, and new laser applications are still being discovered today”…
Why Laser? VGI?
VGI
VGI VGI
Thank you!