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Workshop Sensing A Changing World
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Workshop Sensing A Changing World

A special issue of Sensors (ISSN 1424-8220). This special issue belongs to the section "Remote Sensors".

Deadline for manuscript submissions: closed (28 February 2009) | Viewed by 171677

Special Issue Editors

Prof. Dr. Lammert Kooistra

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Guest Editor
Laboratory of Geo-Information Science and Remote Sensing, Wageningen University, Droevendaalsesteeg 3, 6708 PB Wageningen, The Netherlands
Interests: image spectroscopy; unmanned aerial vehicle; agronomy; sensor integration; machine learning
Special Issues, Collections and Topics in MDPI journals
Dr. Arend Ligtenberg

E-Mail Website
Guest Editor
Wageningen University and Research Centre, GAIA building 101 at the campus WUR, Wageningen, The Netherlands
Special Issues, Collections and Topics in MDPI journals

Special Issue Information

Workshop Sensing A Changing World

19 - 21 November 2008 - Centre for Geo-Information - Wageningen, The Netherlands

Summary

Current developments in sensor technology provide increasing opportunities to analyze human behavior and monitor environmental processes in a changing world.
Access to vast amounts of data from mobile (e.g., gps, mobile phones), in situ (e.g., meteorological, groundwater, seismic) and remote sensing sensors provides scientific researchers with complex but very interesting spatial-temporal data sets. However, the challenge will be to develop concepts and applications that can provide timely and on-demand knowledge to end-users in different domains and at a range of scale-levels.

At this moment various communities show interest in sensor networks from different perspectives. This workshop has the objective to elucidate common concepts on aspects like data communication, processing, standardization, knowledge discovery, representation, and visualization. The workshop results in an overview of the state-of-the art developments and identification of future research challenges to improve the application of sensor webs in the environmental sciences domains. The workshop brings together researchers, technology developers and users of different involved disciplines and provides a forum for fruitful discussions. If you would like to participate in the workshop please register yourself via the workshop website.

During the workshop key-note speakers provide an overview state-of-the-art developments, impact and challenges for sensor web technology in different application fields: urban, water, environment, transportation, agriculture, tourism etc. In addition to the presentations, there will be ample time to discuss relevant issues and open questions.

Keywords

We encourage the submission of both conceptual and application oriented contributions for the following topics (but are not limited to):

  • Knowledge discovery from sensory data sets
  • Scale issues in the processing and application of spatial temporal sensory data.
  • Real-time and on-demand representation and visualization of sensor data
  • Information extraction from sensor network data
  • Integration of sensor webs and dynamical modeling
  • Development of location and movement based services
  • Standardized access to sensor data and the linkage to spatial data infrastructures
  • Application of mobile sensor based tracking applications ( transportation, urban, tourism, cellular census, location based services etc.)
  • In situ and earth observation sensor applications (groundwater, air-quality, river management, agriculture, extreme events etc.)

Related Special Issue

Published Papers (12 papers)

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Editorial

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89 KiB  
Editorial
Sensing a Changing World
by Arend Ligtenberg and Lammert Kooistra
Sensors 2009, 9(9), 6819-6822; https://0-doi-org.brum.beds.ac.uk/10.3390/s90906819 - 28 Aug 2009
Cited by 3 | Viewed by 9657
Abstract
The workshop “Sensing a Changing World” was held in Wageningen, The Netherlands, from November 19–21, 2008. The main goal of the workshop was to explore and discuss recent developments in sensors and (wireless) sensor networks for monitoring environmental processes and human spatial behavior [...] Read more.
The workshop “Sensing a Changing World” was held in Wageningen, The Netherlands, from November 19–21, 2008. The main goal of the workshop was to explore and discuss recent developments in sensors and (wireless) sensor networks for monitoring environmental processes and human spatial behavior in a changing world. The challenge is then to develop concepts and applications that can provide timely and on-demand knowledge to end-users in different domains over a range of different spatial and temporal scales. During this workshop over 50 participants, representing 15 countries, presented and discussed their recent research. The workshop provided a broad overview of state-of-the-art research in a broad range of application fields: oceanography, air quality, biodiversity and vegetation, health, tourism, water management, and agriculture. In addition the workshop identified the future research challenges. One of the outcomes of the workshop was a special issue in the journal Sensors with contributions presented at the workshop. This editorial of the special issue aims to provide an overview of the discussions held during the workshop. It highlights the ideas of the authors and participants of the workshop about directions of future research for further development of sensor-webs for “sensing” spatial phenomena. The “big” question was are we already able to sense a changing world? And if the answer is positive, then what are we going to sense and for what? Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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Research

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727 KiB  
Article
Sensing Landscape History with an Interactive Location Based Service
by Ron Van Lammeren, Martin Goossen and Paul Roncken
Sensors 2009, 9(9), 7217-7233; https://0-doi-org.brum.beds.ac.uk/10.3390/s90907217 - 09 Sep 2009
Cited by 5 | Viewed by 13758
Abstract
This paper introduces the STEAD approach for interpreting data acquired by a “human sensor”, who uses an informal interactive location-based service (iLBS) to sense cultural-historic facts and anecdotes of, and in the landscape. This user-generated data is collected outdoors and in situ. [...] Read more.
This paper introduces the STEAD approach for interpreting data acquired by a “human sensor”, who uses an informal interactive location-based service (iLBS) to sense cultural-historic facts and anecdotes of, and in the landscape. This user-generated data is collected outdoors and in situ. The approach consists of four related facets (who, what, where, when). Three of the four facets are discussed and illustrated by user generated data collected during a Dutch survey in 2008. These data represent the personal cultural-historic knowledge and anecdotes of 150 people using a customized iLBS for experiencing the cultural history of a landscape. The “who” facet shows three dominant mentality groups (cosmopolitans, modern materialists and post modern hedonists) that generated user content. The “what” facet focuses on three subject types of pictures and four picture framing classes. Pictures of the place type showed to be dominant and foreground framing class was slightly favourite. The “where” facet is explored via density, distribution, and distance of the pictures made. The illustrations of the facets indirectly show the role of the “human sensor” with respect to the domain of interest. The STEAD approach needs further development of the when-facet and of the relations between the four facets. Finally the results of the approach may support data archives of iLBS applications. Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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274 KiB  
Article
A Survey of Geosensor Networks: Advances in Dynamic Environmental Monitoring
by Silvia Nittel
Sensors 2009, 9(7), 5664-5678; https://0-doi-org.brum.beds.ac.uk/10.3390/s90705664 - 15 Jul 2009
Cited by 88 | Viewed by 13437
Abstract
In the recent decade, several technology trends have influenced the field of geosciences in significant ways. The first trend is the more readily available technology of ubiquitous wireless communication networks and progress in the development of low-power, short-range radio-based communication networks, the miniaturization [...] Read more.
In the recent decade, several technology trends have influenced the field of geosciences in significant ways. The first trend is the more readily available technology of ubiquitous wireless communication networks and progress in the development of low-power, short-range radio-based communication networks, the miniaturization of computing and storage platforms as well as the development of novel microsensors and sensor materials. All three trends have changed the type of dynamic environmental phenomena that can be detected, monitored and reacted to. Another important aspect is the real-time data delivery of novel platforms today. In this paper, I will survey the field of geosensor networks, and mainly focus on the technology of small-scale geosensor networks, example applications and their feasibility and lessons learnt as well as the current research questions posed by using this technology today. Furthermore, my objective is to investigate how this technology can be embedded in the current landscape of intelligent sensor platforms in the geosciences and identify its place and purpose. Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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510 KiB  
Article
Sharing Sensor Data with SensorSA and Cascading Sensor Observation Service
by Denis Havlik, Thomas Bleier and Gerald Schimak
Sensors 2009, 9(7), 5493-5502; https://0-doi-org.brum.beds.ac.uk/10.3390/s90705493 - 10 Jul 2009
Cited by 13 | Viewed by 10453
Abstract
The SANY IP consortium (http://www.sany-ip.eu) has recently developed several interesting service prototypes that extend the usability of the Open Geospatial Consortium “Sensor Web Enablement” (OGC SWE) architecture. One such service prototype, developed by the Austrian Research Centers, is the “cascading SOS” (SOS-X). SOS-X [...] Read more.
The SANY IP consortium (http://www.sany-ip.eu) has recently developed several interesting service prototypes that extend the usability of the Open Geospatial Consortium “Sensor Web Enablement” (OGC SWE) architecture. One such service prototype, developed by the Austrian Research Centers, is the “cascading SOS” (SOS-X). SOS-X is a client to the underlying OGC Sensor Observation service(s) (SOS). It provides alternative access routes to users (or services) interested in accessing data. In addition to a simple cascading, SOS-X can re-format, re-organize, and merge data from several sources into a single SOS offering. Thanks to the built-in “Formula 3” prototype, a kind of time series library, SOS-X will be enabled to derive new data sets on the fly executing arbitrary algebraic operations on one or more data input streams. This article will discuss the SOS-X development status (focusing at end of 2008), further development agenda in year 2009, and possibilities for using the SOS-X outside of the SANY IP. Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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703 KiB  
Article
Improving Temporal Coverage of an Energy-Efficient Data Extraction Algorithm for Environmental Monitoring Using Wireless Sensor Networks
by Supriyo Chatterjea and Paul Havinga
Sensors 2009, 9(6), 4941-4954; https://0-doi-org.brum.beds.ac.uk/10.3390/s90604941 - 23 Jun 2009
Cited by 9 | Viewed by 13927
Abstract
Collecting raw data from a wireless sensor network for environmental monitoring applications can be a difficult task due to the high energy consumption involved. This is especially difficult when the application requires specialized sensors that have very high energy consumption, e.g. hydrological sensors [...] Read more.
Collecting raw data from a wireless sensor network for environmental monitoring applications can be a difficult task due to the high energy consumption involved. This is especially difficult when the application requires specialized sensors that have very high energy consumption, e.g. hydrological sensors for monitoring marine environments. This paper introduces a technique for reducing energy consumption by minimizing sensor sampling operations. In addition, we illustrate how a randomized algorithm can be used to improve temporal coverage such that the time between the occurrence of an event and its detection can be minimized. We evaluate our approach using real data collected from a sensor network deployment on the Great Barrier Reef. Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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126 KiB  
Article
Metadata behind the Interoperability of Wireless Sensor Networks
by Daniela Ballari, Monica Wachowicz and Miguel Angel Manso Callejo
Sensors 2009, 9(5), 3635-3651; https://0-doi-org.brum.beds.ac.uk/10.3390/s90503635 - 14 May 2009
Cited by 24 | Viewed by 10346
Abstract
Wireless Sensor Networks (WSNs) produce changes of status that are frequent, dynamic and unpredictable, and cannot be represented using a linear cause-effect approach. Consequently, a new approach is needed to handle these changes in order to support dynamic interoperability. Our approach is to [...] Read more.
Wireless Sensor Networks (WSNs) produce changes of status that are frequent, dynamic and unpredictable, and cannot be represented using a linear cause-effect approach. Consequently, a new approach is needed to handle these changes in order to support dynamic interoperability. Our approach is to introduce the notion of context as an explicit representation of changes of a WSN status inferred from metadata elements, which in turn, leads towards a decision-making process about how to maintain dynamic interoperability. This paper describes the developed context model to represent and reason over different WSN status based on four types of contexts, which have been identified as sensing, node, network and organisational contexts. The reasoning has been addressed by developing contextualising and bridges rules. As a result, we were able to demonstrate how contextualising rules have been used to reason on changes of WSN status as a first step towards maintaining dynamic interoperability. Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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968 KiB  
Article
Sensing Human Activity: GPS Tracking
by Stefan Van der Spek, Jeroen Van Schaick, Peter De Bois and Remco De Haan
Sensors 2009, 9(4), 3033-3055; https://0-doi-org.brum.beds.ac.uk/10.3390/s90403033 - 24 Apr 2009
Cited by 94 | Viewed by 23911
Abstract
The enhancement of GPS technology enables the use of GPS devices not only as navigation and orientation tools, but also as instruments used to capture travelled routes: as sensors that measure activity on a city scale or the regional scale. TU Delft developed [...] Read more.
The enhancement of GPS technology enables the use of GPS devices not only as navigation and orientation tools, but also as instruments used to capture travelled routes: as sensors that measure activity on a city scale or the regional scale. TU Delft developed a process and database architecture for collecting data on pedestrian movement in three European city centres, Norwich, Rouen and Koblenz, and in another experiment for collecting activity data of 13 families in Almere (The Netherlands) for one week. The question posed in this paper is: what is the value of GPS as ‘sensor technology’ measuring activities of people? The conclusion is that GPS offers a widely useable instrument to collect invaluable spatial-temporal data on different scales and in different settings adding new layers of knowledge to urban studies, but the use of GPS-technology and deployment of GPS-devices still offers significant challenges for future research. Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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257 KiB  
Article
Language-Based Access to Large Sensor Repositories
by Peter Baumann
Sensors 2009, 9(4), 2926-2943; https://0-doi-org.brum.beds.ac.uk/10.3390/s90402926 - 22 Apr 2009
Cited by 1 | Viewed by 12706
Abstract
Sensor data have broadened their scope recently, ranging now from the simple time series measurements to, e.g., hyperspectral satellite image maps timeseries. In addition to observed data, simulation data increasingly have to be merged, for example 4-D ocean and atmospheric data. The majority [...] Read more.
Sensor data have broadened their scope recently, ranging now from the simple time series measurements to, e.g., hyperspectral satellite image maps timeseries. In addition to observed data, simulation data increasingly have to be merged, for example 4-D ocean and atmospheric data. The majority of these data fall into the category of multi-dimensional rasters. However, when it comes to flexible retrieval, including sensor data search, aggregation, analysis, fusion, etc., standard query language support in the past has not kept up with the service level of, e.g., metadata retrieval. To close this gap, the Open GeoSpatial Consortium (OGC) has issued the Web Coverage Processing Service (WCPS) Standard in December 2008. WCPS defines a request language for multi-dimensional raster data, suitable for specifying navigation, download, and analysis of sensor, image, and statistics data. This contribution emphasises sensor data modeling and the perspectives for an integrated, cross-dimensional sensor data retrieval. Further, the WCPS reference implementation is briefly discussed. Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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369 KiB  
Article
Wireless in-situ Sensor Network for Agriculture and Water Monitoring on a River Basin Scale in Southern Finland: Evaluation from a Data User’s Perspective
by Niina Kotamäki, Sirpa Thessler, Jari Koskiaho, Asko O. Hannukkala, Hanna Huitu, Timo Huttula, Jukka Havento and Markku Järvenpää
Sensors 2009, 9(4), 2862-2883; https://0-doi-org.brum.beds.ac.uk/10.3390/s90402862 - 21 Apr 2009
Cited by 79 | Viewed by 17527
Abstract
Sensor networks are increasingly being implemented for environmental monitoring and agriculture to provide spatially accurate and continuous environmental information and (near) real-time applications. These networks provide a large amount of data which poses challenges for ensuring data quality and extracting relevant information. In [...] Read more.
Sensor networks are increasingly being implemented for environmental monitoring and agriculture to provide spatially accurate and continuous environmental information and (near) real-time applications. These networks provide a large amount of data which poses challenges for ensuring data quality and extracting relevant information. In the present paper we describe a river basin scale wireless sensor network for agriculture and water monitoring. The network, called SoilWeather, is unique and the first of this type in Finland. The performance of the network is assessed from the user and maintainer perspectives, concentrating on data quality, network maintenance and applications. The results showed that the SoilWeather network has been functioning in a relatively reliable way, but also that the maintenance and data quality assurance by automatic algorithms and calibration samples requires a lot of effort, especially in continuous water monitoring over large areas. We see great benefits on sensor networks enabling continuous, real-time monitoring, while data quality control and maintenance efforts highlight the need for tight collaboration between sensor and sensor network owners to decrease costs and increase the quality of the sensor data in large scale applications. Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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119 KiB  
Article
Discovery Mechanisms for the Sensor Web
by Simon Jirka, Arne Bröring and Christoph Stasch
Sensors 2009, 9(4), 2661-2681; https://0-doi-org.brum.beds.ac.uk/10.3390/s90402661 - 16 Apr 2009
Cited by 86 | Viewed by 15395
Abstract
This paper addresses the discovery of sensors within the OGC Sensor Web Enablement framework. Whereas services like the OGC Web Map Service or Web Coverage Service are already well supported through catalogue services, the field of sensor networks and the according discovery mechanisms [...] Read more.
This paper addresses the discovery of sensors within the OGC Sensor Web Enablement framework. Whereas services like the OGC Web Map Service or Web Coverage Service are already well supported through catalogue services, the field of sensor networks and the according discovery mechanisms is still a challenge. The focus within this article will be on the use of existing OGC Sensor Web components for realizing a discovery solution. After discussing the requirements for a Sensor Web discovery mechanism, an approach will be presented that was developed within the EU funded project “OSIRIS”. This solution offers mechanisms to search for sensors, exploit basic semantic relationships, harvest sensor metadata and integrate sensor discovery into already existing catalogues. Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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735 KiB  
Article
Development of a Dynamic Web Mapping Service for Vegetation Productivity Using Earth Observation and in situ Sensors in a Sensor Web Based Approach
by Lammert Kooistra, Aldo Bergsma, Beatus Chuma and Sytze De Bruin
Sensors 2009, 9(4), 2371-2388; https://0-doi-org.brum.beds.ac.uk/10.3390/s90402371 - 31 Mar 2009
Cited by 19 | Viewed by 14322
Abstract
This paper describes the development of a sensor web based approach which combines earth observation and in situ sensor data to derive typical information offered by a dynamic web mapping service (WMS). A prototype has been developed which provides daily maps of vegetation [...] Read more.
This paper describes the development of a sensor web based approach which combines earth observation and in situ sensor data to derive typical information offered by a dynamic web mapping service (WMS). A prototype has been developed which provides daily maps of vegetation productivity for the Netherlands with a spatial resolution of 250 m. Daily available MODIS surface reflectance products and meteorological parameters obtained through a Sensor Observation Service (SOS) were used as input for a vegetation productivity model. This paper presents the vegetation productivity model, the sensor data sources and the implementation of the automated processing facility. Finally, an evaluation is made of the opportunities and limitations of sensor web based approaches for the development of web services which combine both satellite and in situ sensor sources. Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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1328 KiB  
Article
Fieldservers and Sensor Service Grid as Real-time Monitoring Infrastructure for Ubiquitous Sensor Networks
by Kiyoshi Honda, Aadit Shrestha, Apichon Witayangkurn, Rassarin Chinnachodteeranun and Hiroshi Shimamura
Sensors 2009, 9(4), 2363-2370; https://0-doi-org.brum.beds.ac.uk/10.3390/s90402363 - 31 Mar 2009
Cited by 29 | Viewed by 13376
Abstract
The fieldserver is an Internet based observation robot that can provide an outdoor solution for monitoring environmental parameters in real-time. The data from its sensors can be collected to a central server infrastructure and published on the Internet. The information from the sensor [...] Read more.
The fieldserver is an Internet based observation robot that can provide an outdoor solution for monitoring environmental parameters in real-time. The data from its sensors can be collected to a central server infrastructure and published on the Internet. The information from the sensor network will contribute to monitoring and modeling on various environmental issues in Asia, including agriculture, food, pollution, disaster, climate change etc. An initiative called Sensor Asia is developing an infrastructure called Sensor Service Grid (SSG), which integrates fieldservers and Web GIS to realize easy and low cost installation and operation of ubiquitous field sensor networks. Full article
(This article belongs to the Special Issue Workshop Sensing A Changing World)
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