Climate Data Sharing for Urban Resilience - OGC Testbed 11George Percivall
OGC Testbed 11:
Delivering on our commitment to the Climate Data Initiative
In December 2014 the US White House Office of Science and Technology (OSTP) released a Policy Fact Sheet titled "Harnessing Climate Data to Boost Ecosystem & Water Resilience." The Fact Sheet includes OGC’s commitment to increase open access to climate change information using open standards. Testbed 11 results are now available delivering on that commitment.
The results of this major interoperability testbed contribute to development and refinement of international standards that are critical for the communication and integration of geospatial information. http://www.opengeospatial.org/projects/initiatives/testbed11
• Nine sponsors provided requirements and funding for Testbed 11.
• Thirty organizations participated in Testbed 11 by contributing prototypes, engineering
reports and participating in a scenario driven demonstration of the technical advances Technical results of Testbed 11 relevant to the Climate Data Initiative include:
• Analysis and prediction based on open climate data accessed using open standards
• Making predictive models more accessible with OGC Web Processing Service (WPS)
• Verifying model predictions using mobile operations, in-situ gauges and social media.
Climate adaptation, resilience and security planning based on technology from OGC Testbed 11:
• Estimating geographic extend of coastal inundation in dynamic weather conditions
• Assessing social unrest with displaced population due to climate change
• Integrating spatial and non-spatial models of human geography and resilience
• Predictive models and verifications to support planning and response phases
Scientific Knowledge from Geospatial ObservationsGeorge Percivall
Presentation to IGARSS 2015 Conference, July 205, Milan Italy.
Part of invited session: Why Data Matters: Value of Stewardship and Knowledge Augmentation Services
Progress towards Open Standards-Based Agro-GeoinformaticsGeorge Percivall
Keynote presentation to Agro-Geoinformatics Conference
20 July 2015, Istanbul, Turkey
http://agro-geoinformatics.org/
** What is agro-geoinformatics and why need for exchange of Agriculture Geo-Information?
Efficient exchange of data on utilization of farmland, soil and crop characteristics, water availability, environmental impacts, …
Many user roles: growers, advisors, landowners, foodstuff processors, regulators and all levels of government
Major challenges to agricultural: climate change, increasing population, shortage of water and arable land
Increasing need for information standards to support transparency in agricultural goods and services markets
** Projects showing the progress of standards-based agro-geoinformatics technology
SoilML for information exchange
Soil information platforms
Precision Agriculture and In-situ networks
Remote sensing from satellites and drones
Big Data processing for decision support
Climate - Food - Water nexus
** OGC support of Agro-Geoinformatics
- Agriculture Domain Working Group
Identify geospatial interoperability challenges in agriculture domain
Forum to identify standards-based solutions, new standards
- Discrete Global Grid Systems standards development
Geometric partitioning of Earth surface into cells with identifiers
Enable fusion of disparate data for spatial analysis and modeling
- Soil Data Interoperability Experiment (SoilIE)
Testing standards for exchange of soils data
Results to converge and mature soil information standards.
Get involved as participant or an observer, contact:
David Medyckyj-Scott Medyckyj-Scottd@landcareresearch.co.nz
…and others
UAVs are a disruptive technology bringing new geographic data and information to many application domains. UASs are similar to other geographic imagery systems so existing frameworks are applicable. But the diversity of UAVs as platforms along with the diversity of available sensors are presenting challenges in the processing and creation of geospatial products. Efficient processing and dissemination of the data is achieved using software and systems that implement open standards. The challenges identified point to the need for use of existing standards and extending standards. Results from the use of the OGC Sensor Web Enablement set of standards are presented. Next steps in the progress of UAVs and UASs may follow the path of open data, open source and open standards.
Keynote presentation to New Zealand Geospatial Research Conference 2015. This presentation covered emerging topics for geospatial research in four areas:
- Spatial Representation: urban models, CityGML, indoor and DGGS
- New Data Sources: sensors everywhere, IoT, UAVs citizen observations, social media
- Computer Engineering: Big data, moving features, spatial analytics, mobile, 3D portrayal, augmented reality
- Application Areas: Soils Interoperability Experiment, Urban Climate Resilience in OGC Testbed 11.
Geospatial Temporal Open Standards for Big Data from Space (BiDS2014)George Percivall
Presentation to ESA Big Data From Space (BiDS2014), November 2014.
Big data from space requires processing large amounts of data in a distributed environment. For efficient, quality and cost-effective deployment, these environments must be based on open standards. The Open Geospatial Consortium (OGC) open standards for geospatial-temporal information have been tuned through implementations to meet the needs of big data.
Presentation Location and Context World, 2015. Palo Alto, CA November 3-4, 2015.
Abstract: Creating useful local context requires big data platforms and marketplaces. Contextual awareness is relevant to location based marketing, first responders, urban planners and many others. Location-aware mobile devices are revolutionizing how consumers and brands interact in the physical world. Situational awareness is a key element to efficiently handling any emergency response. In all cases, big data processing and high velocity streaming of location based data creates the richest contextual awareness. Data from many sources including IoT devices, sensor webs, surveillance and crowdsourcing are combined with semantically-rich urban and indoor data models. The resulting context information is delivered to and shared by mobile devices in connected and disconnected operations. Standards play a key role in establishing context platforms and marketplaces. Successful approaches will consolidate data from ubiquitous sensing technologies on a common space-time basis to enabled context-aware analysis of environmental and social dynamics.
"The Golden Age of Geospatial Data Science and Engineering" presented as the inital lecture in the Geospatial Data Science Distinguished Speaker Series at the University of Illinois, Urbana-Champaign. Series organized and presented by Professor Shaowen Wang, Head of the Geography and Geographic Information Science Department.
"Data Science is in a golden age. The mathematical foundations of Data Science, known for many years, are now seeing broad applicability due to engineering advances in cloud and big data computing and due to the explosive availability of data about nearly every aspect of human activity coming from mobile devices, remote sensing and the Internet of Things. Nearly all of this data has components of location and time leading to stunning advances in geospatial data science. Development of intelligent systems using knowledge models leading to insights and understanding have the potential to significantly transform geospatial data sciences. To achieve the fullest extent of their potential, these innovations require establishment of open consensus standards. This talk will review recent developments in innovations, standards, and applications of geospatial data science and engineering."
Climate Data Sharing for Urban Resilience - OGC Testbed 11George Percivall
OGC Testbed 11:
Delivering on our commitment to the Climate Data Initiative
In December 2014 the US White House Office of Science and Technology (OSTP) released a Policy Fact Sheet titled "Harnessing Climate Data to Boost Ecosystem & Water Resilience." The Fact Sheet includes OGC’s commitment to increase open access to climate change information using open standards. Testbed 11 results are now available delivering on that commitment.
The results of this major interoperability testbed contribute to development and refinement of international standards that are critical for the communication and integration of geospatial information. http://www.opengeospatial.org/projects/initiatives/testbed11
• Nine sponsors provided requirements and funding for Testbed 11.
• Thirty organizations participated in Testbed 11 by contributing prototypes, engineering
reports and participating in a scenario driven demonstration of the technical advances Technical results of Testbed 11 relevant to the Climate Data Initiative include:
• Analysis and prediction based on open climate data accessed using open standards
• Making predictive models more accessible with OGC Web Processing Service (WPS)
• Verifying model predictions using mobile operations, in-situ gauges and social media.
Climate adaptation, resilience and security planning based on technology from OGC Testbed 11:
• Estimating geographic extend of coastal inundation in dynamic weather conditions
• Assessing social unrest with displaced population due to climate change
• Integrating spatial and non-spatial models of human geography and resilience
• Predictive models and verifications to support planning and response phases
Scientific Knowledge from Geospatial ObservationsGeorge Percivall
Presentation to IGARSS 2015 Conference, July 205, Milan Italy.
Part of invited session: Why Data Matters: Value of Stewardship and Knowledge Augmentation Services
Progress towards Open Standards-Based Agro-GeoinformaticsGeorge Percivall
Keynote presentation to Agro-Geoinformatics Conference
20 July 2015, Istanbul, Turkey
http://agro-geoinformatics.org/
** What is agro-geoinformatics and why need for exchange of Agriculture Geo-Information?
Efficient exchange of data on utilization of farmland, soil and crop characteristics, water availability, environmental impacts, …
Many user roles: growers, advisors, landowners, foodstuff processors, regulators and all levels of government
Major challenges to agricultural: climate change, increasing population, shortage of water and arable land
Increasing need for information standards to support transparency in agricultural goods and services markets
** Projects showing the progress of standards-based agro-geoinformatics technology
SoilML for information exchange
Soil information platforms
Precision Agriculture and In-situ networks
Remote sensing from satellites and drones
Big Data processing for decision support
Climate - Food - Water nexus
** OGC support of Agro-Geoinformatics
- Agriculture Domain Working Group
Identify geospatial interoperability challenges in agriculture domain
Forum to identify standards-based solutions, new standards
- Discrete Global Grid Systems standards development
Geometric partitioning of Earth surface into cells with identifiers
Enable fusion of disparate data for spatial analysis and modeling
- Soil Data Interoperability Experiment (SoilIE)
Testing standards for exchange of soils data
Results to converge and mature soil information standards.
Get involved as participant or an observer, contact:
David Medyckyj-Scott Medyckyj-Scottd@landcareresearch.co.nz
…and others
UAVs are a disruptive technology bringing new geographic data and information to many application domains. UASs are similar to other geographic imagery systems so existing frameworks are applicable. But the diversity of UAVs as platforms along with the diversity of available sensors are presenting challenges in the processing and creation of geospatial products. Efficient processing and dissemination of the data is achieved using software and systems that implement open standards. The challenges identified point to the need for use of existing standards and extending standards. Results from the use of the OGC Sensor Web Enablement set of standards are presented. Next steps in the progress of UAVs and UASs may follow the path of open data, open source and open standards.
Keynote presentation to New Zealand Geospatial Research Conference 2015. This presentation covered emerging topics for geospatial research in four areas:
- Spatial Representation: urban models, CityGML, indoor and DGGS
- New Data Sources: sensors everywhere, IoT, UAVs citizen observations, social media
- Computer Engineering: Big data, moving features, spatial analytics, mobile, 3D portrayal, augmented reality
- Application Areas: Soils Interoperability Experiment, Urban Climate Resilience in OGC Testbed 11.
Geospatial Temporal Open Standards for Big Data from Space (BiDS2014)George Percivall
Presentation to ESA Big Data From Space (BiDS2014), November 2014.
Big data from space requires processing large amounts of data in a distributed environment. For efficient, quality and cost-effective deployment, these environments must be based on open standards. The Open Geospatial Consortium (OGC) open standards for geospatial-temporal information have been tuned through implementations to meet the needs of big data.
Presentation Location and Context World, 2015. Palo Alto, CA November 3-4, 2015.
Abstract: Creating useful local context requires big data platforms and marketplaces. Contextual awareness is relevant to location based marketing, first responders, urban planners and many others. Location-aware mobile devices are revolutionizing how consumers and brands interact in the physical world. Situational awareness is a key element to efficiently handling any emergency response. In all cases, big data processing and high velocity streaming of location based data creates the richest contextual awareness. Data from many sources including IoT devices, sensor webs, surveillance and crowdsourcing are combined with semantically-rich urban and indoor data models. The resulting context information is delivered to and shared by mobile devices in connected and disconnected operations. Standards play a key role in establishing context platforms and marketplaces. Successful approaches will consolidate data from ubiquitous sensing technologies on a common space-time basis to enabled context-aware analysis of environmental and social dynamics.
"The Golden Age of Geospatial Data Science and Engineering" presented as the inital lecture in the Geospatial Data Science Distinguished Speaker Series at the University of Illinois, Urbana-Champaign. Series organized and presented by Professor Shaowen Wang, Head of the Geography and Geographic Information Science Department.
"Data Science is in a golden age. The mathematical foundations of Data Science, known for many years, are now seeing broad applicability due to engineering advances in cloud and big data computing and due to the explosive availability of data about nearly every aspect of human activity coming from mobile devices, remote sensing and the Internet of Things. Nearly all of this data has components of location and time leading to stunning advances in geospatial data science. Development of intelligent systems using knowledge models leading to insights and understanding have the potential to significantly transform geospatial data sciences. To achieve the fullest extent of their potential, these innovations require establishment of open consensus standards. This talk will review recent developments in innovations, standards, and applications of geospatial data science and engineering."
Raj Singh talks about the history of OGC standards such as Sensor Web Enablement Suite -- Sensor Planning Service, Sensor Observation Service, SensorML, Observation & Measurements -- and its IoT companion -- SWEforIoT, and how the geospatial industry is uniquely positioned to take leadership in the emerging Internet of Things space.
Analysis Ready Data workshop - OGC presentation George Percivall
The Open Geospatial Consortium (OGC) has activities relevant to the workshop scope of "the current state-of-the-art in satellite data interoperability”. This presentation will focus on two main topics with the option to discuss other relevant topics that the participants may wish to discuss, e.g., WFS3. The two focus areas of development: 1) Geospatial Datacubes and 2) Earth Observation Exploitation Platforms. 1) A Geospatial Datacube provides access to and analytics on analysis ready data (ARD) organized with coordinate axes of space and time with cells in the cube containing data of geospatial features, e.g., imagery. OGC members implementing geospatial datacubes are documenting common practices to spur development and leading to the possibility to federated geospatial datacubes. 2) OGC is forming a Earth Observation Exploitation Platform Domain Working Group with the goal of defining a standards-based framework for cloud-based access to and analysis of EO data. An ad-hoc meeting was held in March 2018 to scope the working group with the results issued in a request for comment: http://www.opengeospatial.org/pressroom/pressreleases/2792
OGC Update for State of Geospatial Tech at T-RexGeorge Percivall
An update on OGC activities in three time horizons: Now, Next and After Next. Finishing with how to keep updated on OGC activities.
Now
Recently approved OGC standards
Implementation of approved standards
Next
Standards Program
Innovation Program
After Next
Tech Forecast
How to keep in touch
Emmanuel Mondon (Copernicus World Alliance) described the activities of the Copernicus World Alliance aiming to secure the return of investment in Copernicus and other Earth observation (EO) programmes resulting in societal and economic benefits. One of their contribution towards this goal is to test a multi-cloud solution that can handle the enormous amount of data coming from EO.
Time, Change and Habits in Geospatial-Temporal Information StandardsGeorge Percivall
Keynote for HIC 2014 – 11th International Conference on Hydroinformatics, New York, USA August 17 – 21, 2014
Time, Change and Habits in Geospatial-Temporal Information Standards
Time and change are fundamental to our scientific understanding of the world. Standards for geospatial-temporal information exist but new needs outstrip current standards. Geospatial-temporal information includes capturing change in features and coverages and modeling the processes that inform change. Key standards for time, calendars, and temporal reference systems are in place. Time series modeling from the WaterML standard is a recent advance of high value to hydrology. The OGC Moving Features standard will establish an encoding format for changes in “rigid” features. Interoperability standards are needed for Coverages with values that change based on observations, analytical expressions, or simulations. Applying a coverage model to time-varying, fluid Earth systems was the topic of the ground breaking GALEON Interoperability Experiment. Standards developments for spatial-temporal process models is progressing with WPS, OpenMI and ESMF - supporting a Model Web concept. A robust framework for sharing geospatial-temporal information is now coming into place based on developments captured in standards by ISO, WMO, ITU, ICSU and OGC - including the newly established OGC Temporal domain working group. The new framework will enable capabilities in expressing and sharing scientific investigations including research on the emergence of forms over time. With these new capabilities we may come to understand Peirce’s observation that over time “all things have a tendency to take habits.”
Innovation in Geospatial Technology and StandardsGeorge Percivall
All predictions are wrong; some are useful. This presentation offers a slate of geospatial trends developed in discussion with the OGC Board of Directors and expanded in an OGC blog series. These geospatial technology issues were developed by reviewing over 200 articles from geospatial publications as well as from information technology journals (IEEE, ACM, etc.).
These "Ripe Issues" of geospatial technology identify areas where further development of open standards can lead to great benefit:
* The Power of Location
* Internet of Things
* Mobile Development
* Indoor Frontier
* Cartographers of the future
* Big Processing of GeoData
* Smart Cities
The OGC is an international consortium where members participate in a consensus process to develop publicly available geospatial standards. OGC has a history of developing anticipatory standards. OGC is a leader in achieving a consensus balanced with innovation where OGC members actively designing the standard while implementing running software. In the role of OGC Chief Engineer, George Percivall identifies technology and market trends relevant to open standards development.
Application packaging and systematic processing in earth observation exploita...terradue
An overview of Terradue's solutions supporting Earth Observations (EO) Exploitation Platforms across multiple domains.
Presentation done as part of the Open Geospatial Consortium (OGC) Technical Committee ad-hoc meeting for the setup of a new domain working group on EO Exploitation Platforms.
CyberGIS Architectures for Collaborative Problem Solving - OGC perspectiveGeorge Percivall
1. What is CyberGIS:
- collaboration; open data, open source, open standards
2. The plumbing for CyberGIS collaboration is available:
- Processing, Workflow, Model interoperability as web services are “solved” several times;
- the concepts for collaboration need to be made explicit
3. Need for “decision” and “hypothesis” objects including modeling and linked data
- Ontology for decision types. Templates for Decisions and Hypothesis
- Recommender systems - a guess at the riddle
- If I see these conditions then consider this decision template
- If I am researching these conditions then consider this hypothesis
Raj Singh talks about the history of OGC standards such as Sensor Web Enablement Suite -- Sensor Planning Service, Sensor Observation Service, SensorML, Observation & Measurements -- and its IoT companion -- SWEforIoT, and how the geospatial industry is uniquely positioned to take leadership in the emerging Internet of Things space.
Analysis Ready Data workshop - OGC presentation George Percivall
The Open Geospatial Consortium (OGC) has activities relevant to the workshop scope of "the current state-of-the-art in satellite data interoperability”. This presentation will focus on two main topics with the option to discuss other relevant topics that the participants may wish to discuss, e.g., WFS3. The two focus areas of development: 1) Geospatial Datacubes and 2) Earth Observation Exploitation Platforms. 1) A Geospatial Datacube provides access to and analytics on analysis ready data (ARD) organized with coordinate axes of space and time with cells in the cube containing data of geospatial features, e.g., imagery. OGC members implementing geospatial datacubes are documenting common practices to spur development and leading to the possibility to federated geospatial datacubes. 2) OGC is forming a Earth Observation Exploitation Platform Domain Working Group with the goal of defining a standards-based framework for cloud-based access to and analysis of EO data. An ad-hoc meeting was held in March 2018 to scope the working group with the results issued in a request for comment: http://www.opengeospatial.org/pressroom/pressreleases/2792
OGC Update for State of Geospatial Tech at T-RexGeorge Percivall
An update on OGC activities in three time horizons: Now, Next and After Next. Finishing with how to keep updated on OGC activities.
Now
Recently approved OGC standards
Implementation of approved standards
Next
Standards Program
Innovation Program
After Next
Tech Forecast
How to keep in touch
Emmanuel Mondon (Copernicus World Alliance) described the activities of the Copernicus World Alliance aiming to secure the return of investment in Copernicus and other Earth observation (EO) programmes resulting in societal and economic benefits. One of their contribution towards this goal is to test a multi-cloud solution that can handle the enormous amount of data coming from EO.
Time, Change and Habits in Geospatial-Temporal Information StandardsGeorge Percivall
Keynote for HIC 2014 – 11th International Conference on Hydroinformatics, New York, USA August 17 – 21, 2014
Time, Change and Habits in Geospatial-Temporal Information Standards
Time and change are fundamental to our scientific understanding of the world. Standards for geospatial-temporal information exist but new needs outstrip current standards. Geospatial-temporal information includes capturing change in features and coverages and modeling the processes that inform change. Key standards for time, calendars, and temporal reference systems are in place. Time series modeling from the WaterML standard is a recent advance of high value to hydrology. The OGC Moving Features standard will establish an encoding format for changes in “rigid” features. Interoperability standards are needed for Coverages with values that change based on observations, analytical expressions, or simulations. Applying a coverage model to time-varying, fluid Earth systems was the topic of the ground breaking GALEON Interoperability Experiment. Standards developments for spatial-temporal process models is progressing with WPS, OpenMI and ESMF - supporting a Model Web concept. A robust framework for sharing geospatial-temporal information is now coming into place based on developments captured in standards by ISO, WMO, ITU, ICSU and OGC - including the newly established OGC Temporal domain working group. The new framework will enable capabilities in expressing and sharing scientific investigations including research on the emergence of forms over time. With these new capabilities we may come to understand Peirce’s observation that over time “all things have a tendency to take habits.”
Innovation in Geospatial Technology and StandardsGeorge Percivall
All predictions are wrong; some are useful. This presentation offers a slate of geospatial trends developed in discussion with the OGC Board of Directors and expanded in an OGC blog series. These geospatial technology issues were developed by reviewing over 200 articles from geospatial publications as well as from information technology journals (IEEE, ACM, etc.).
These "Ripe Issues" of geospatial technology identify areas where further development of open standards can lead to great benefit:
* The Power of Location
* Internet of Things
* Mobile Development
* Indoor Frontier
* Cartographers of the future
* Big Processing of GeoData
* Smart Cities
The OGC is an international consortium where members participate in a consensus process to develop publicly available geospatial standards. OGC has a history of developing anticipatory standards. OGC is a leader in achieving a consensus balanced with innovation where OGC members actively designing the standard while implementing running software. In the role of OGC Chief Engineer, George Percivall identifies technology and market trends relevant to open standards development.
Application packaging and systematic processing in earth observation exploita...terradue
An overview of Terradue's solutions supporting Earth Observations (EO) Exploitation Platforms across multiple domains.
Presentation done as part of the Open Geospatial Consortium (OGC) Technical Committee ad-hoc meeting for the setup of a new domain working group on EO Exploitation Platforms.
CyberGIS Architectures for Collaborative Problem Solving - OGC perspectiveGeorge Percivall
1. What is CyberGIS:
- collaboration; open data, open source, open standards
2. The plumbing for CyberGIS collaboration is available:
- Processing, Workflow, Model interoperability as web services are “solved” several times;
- the concepts for collaboration need to be made explicit
3. Need for “decision” and “hypothesis” objects including modeling and linked data
- Ontology for decision types. Templates for Decisions and Hypothesis
- Recommender systems - a guess at the riddle
- If I see these conditions then consider this decision template
- If I am researching these conditions then consider this hypothesis
Responding to an oil spill requires access and understanding of many types of information. Effective, coordinated operations for the response are based on a shared, common picture of the situation. Interoperability provides shared situational awareness of the crisis and the response activities.
The OGP and IPIECA are conducting a Joint Industry Project to produce a recommended practice for an Oil Spill Response Common Operating Picture (COP) for management of the response. The presentation will provide an overview, plans and status of the OGP/IPEICA project being conducted with support from RDA and OGC.
SDSC Technology Forum: Increasing the Impact of High Resolution Topography Da...OpenTopography Facility
High-resolution topography is a powerful tool for studying the Earth's surface, vegetation, and urban landscapes, with broad scientific, engineering, and educational-based applications. Over the past decade, there has been dramatic growth in the acquisition of these data for scientific, environmental, engineering and planning purposes. In the US, the U.S. Geological Society is undertaking the 3D Elevation Program (3DEP) to map the entire lower 48 with lidar by 2023.
The richness of these topography datasets make them extremely valuable beyond the application that drove their acquisition and thus are of interest to a large and varied user community. A cyberinfrastructure platform that enables users to efficiently discover, access and process these massive volumes of data increases the impact of investments in collection of the data and catalyzes scientific discovery as well as informs critical decisions that are made across our Nation every day that depend on elevation data, ranging from immediate safety of life, property, and environment to long term planning for infrastructure projects.
Join us to hear about the motivations, technology, and data assets behind the National Science Foundation funded OpenTopography platform, which aims to democratize access to high resolution topographic data. OpenTopography’s innovation is in co-locating massive volumes of topographic data with processing tools that enable users with varied expertise and application domains to quickly and easily access and process data, to enable innovation and decision making.
Artificial Intelligence and Big Data Techniques for Copernicus Data: the ExtremeEarth project
Manolis Koubarakis (Professor at the National and Kapodistrian University of Athens and Adjunct Researcher at the Institute of the Management of Information Systems)
The ExtremeEarth project develops geospatial analytics techniques and technologies that scale to the petabytes of big Copernicus data, information and knowledge, and applies these technologies in two of the thematic exploitation platforms of the European Space Agency: Food Security and Polar.
Geo The Big 5
Challenges and Opportunities Rising from
Open Geospatial
Association for Geographic Information (AGI)
Belfast, 13 May 2014
Tracey P. Lauriault
National Institute for Regional and Spatial Analysis (NIRSA)
National University of Ireland at Maynooth (NUIM)
TITLE: Open Standards Role in EarthCube (Invited)
AUTHORS (FIRST NAME, LAST NAME): Luis E Bermudez1, David K Arctur2, 1, George Percivall1
INSTITUTIONS (ALL): 1. Open Geospatial Consortium, Gaithersburg, MD, United States.
2. University of Texas at Austin, Austin, TX, United States.
ABSTRACT BODY: EarthCube is an NSF initiative that will enable sharing of data in an open and transparent manner, improving access and use of data, allowing scientists to better understand the Earth. EarthCube is based on a network of enthusiasts willing to make the sharing of data a reality. But is just having open data enough? Open data will not accelerate the process a scientist team needs to go through to understand, reformat and use the data. However, agreements among colleagues or adoption of agreements can make a big difference. These agreements also need to be published, freely available, and unpolluted from intellectual property rights issues. The system design requirements to develop cyberinfrastructure for Geosciences need to take into account these open agreements, including open interfaces and open encodings. Once open agreements are in place, it is essential to have in place policy and procedures, and a governance body for maintaining those agreements. This presentation will explore these issues and suggest ways the standard development organizations, like the Open Geospatial Consortium (OGC), and other coordinating organizations, such as the Earth Science Information Partners (ESIP) and the Research Data Alliance (RDA), could be involved in this process.
http://www.opengeospatial.org
In AGU 2013 Session: IN43B. Emerging Concepts for Cyberinfrastructure in the Geosciences
Monitoring environment based on satellite data with Python and PySpark - Albe...GetInData
Did you like it? Check out our blog to stay up to date: https://getindata.com/blog
Satellite data is not well-known although it provides a lot useful information for different sectors like agriculture, industry or military.During the workshops participants will learn how to get the satellite imageries, process them by using Python and PySpark and what are the most common use cases. There will be a knowledge sharing session about issues with satellite data and how these difficulties can be overcome.
Author: Albert Lewandowski
Linkedin: https://www.linkedin.com/in/albert-lewandowski/
_____
Getindata is a company founded in 2014 by ex-Spotify data engineers. From day one our focus has been on Big Data projects. We bring together a group of best and most experienced experts in Poland, working with cloud and open-source Big Data technologies to help companies build scalable data architectures and implement advanced analytics over large data sets.
Our experts have vast production experience in implementing Big Data projects for Polish as well as foreign companies including i.a. Spotify, Play, Truecaller, Kcell, Acast, Allegro, ING, Agora, Synerise, StepStone, iZettle and many others from the pharmaceutical, media, finance and FMCG industries.
https://getindata.com
A presentation given by Peter McKeague (Historic Environment Scotland), Anthony Corns (Discovery Programme, Ireland) and Axel Posluschny (University of Bamberg, Germany) at the European Archaeological Consilium annual meeting in Brighton, March 2015.
Geospatial Data for Augmented Reality (GIality) – Democratising In-Field Renewables Visualisation
This paper will introduce the technology and applications for the use of geospatial data within augmented reality (AR) applications. GIality is the convergence of geospatial data and augmented reality and extends the use of AR from technology-preview to real-world business applications. Where augmented reality (AR) is the integration of real-world sensors (ie camera and orientation) with overlay data and imagery on a mobile device (usually as an app for a specific requirement such as marketing or gaming) the introduction of location and scaled 3D models, in combination with geospatial information and map data, provides new and engaging contextual in-field visualisation opportunities for planning, culture & heritage, retail and tourism. We will introduce how, using modern technology drivers including devices such as mobile phones and tablet computers, combined with geospatial positioning, spatial data and services, GIality can bring a new dimension democratisation and community engagement with planning & renewables data. Especially related to planning and renewable energy development, visual impact is one of the primary aspects in the consideration of acceptance under local and national guidance. This is most reported where the impact of wind turbines on the landscape has split political, environmental and consumer opinion. However the current mechanisms and procedures for visual impact assessment (VIA) are based on traditional printed off-site analysis which limits their context, scope and use. This paper introduces a new digital and in-field mobile solution for landscape visual impact analysis – in-field mobile VIA with GIality. The trends for mobile work and play, combined with integrated sensors and social coordination provide the availability and accessibility of tools for both professionals and citizens to democratise and personalise data. The augmentation of as-planned models and geospatial data with device location, attitude and orientation allows individual places of residence, work and play to be equally fairly, rigorously and unambiguously assessed for visual impact and create cost-effective solutions.
Use of web mapping tools to tackle local environmental issues
This paper describes some of the recent uses of modern digital mapping tools by local action groups, Parish Councils and independent organisations to visualise environmental issues in order to aid decision making. Over the past 3-6 years, digital map data has become easier to transmit over the Web due to better standards and improvements in the speed and reliability of the Internet. The way in which we view the Web has also changed dramatically with a wide range of internet-enabled devices and this has lead to high profile companies advocating the use of digital mapping, such as Apple, Google and Microsoft, and as a result making it an everyday part of our lives. Professional mapping software and map data has long been an essential aid in decision making processes. However, until recently gaining access to the necessary tools and data was particularly difficult for smaller local organisations due to cost, licencing and available skills. The introduction of the Public Sector Mapping Agreement (PSMA) and the release of Ordnance Survey OpenData played a part in changing this. Once this data was available, companies like Getmapping have been able to build lightweight web-based GIS tools to cater for this sector’s needs. Combining these tools and map layers with Getmapping’s aerial imagery and elevation datasets, national address datasets and other publically-available data such as Natural England layers makes GIS easy to grasp and immediately usable by non-GIS users. Uses of Getmapping’s GIS include assessing the recent flooding in the South West of England by Town and Parish Councils, plotting efficient and environmentally-conscious routes for broadband fibre in Somerset, and visualising the state of the Mendip Area of Outstanding Natural Beauty (AONB). There are, of course, many other potential uses of this GIS system to tackle topical, local issues and some of these will be highlighted.
Essentials of Automations: Optimizing FME Workflows with ParametersSafe Software
Are you looking to streamline your workflows and boost your projects’ efficiency? Do you find yourself searching for ways to add flexibility and control over your FME workflows? If so, you’re in the right place.
Join us for an insightful dive into the world of FME parameters, a critical element in optimizing workflow efficiency. This webinar marks the beginning of our three-part “Essentials of Automation” series. This first webinar is designed to equip you with the knowledge and skills to utilize parameters effectively: enhancing the flexibility, maintainability, and user control of your FME projects.
Here’s what you’ll gain:
- Essentials of FME Parameters: Understand the pivotal role of parameters, including Reader/Writer, Transformer, User, and FME Flow categories. Discover how they are the key to unlocking automation and optimization within your workflows.
- Practical Applications in FME Form: Delve into key user parameter types including choice, connections, and file URLs. Allow users to control how a workflow runs, making your workflows more reusable. Learn to import values and deliver the best user experience for your workflows while enhancing accuracy.
- Optimization Strategies in FME Flow: Explore the creation and strategic deployment of parameters in FME Flow, including the use of deployment and geometry parameters, to maximize workflow efficiency.
- Pro Tips for Success: Gain insights on parameterizing connections and leveraging new features like Conditional Visibility for clarity and simplicity.
We’ll wrap up with a glimpse into future webinars, followed by a Q&A session to address your specific questions surrounding this topic.
Don’t miss this opportunity to elevate your FME expertise and drive your projects to new heights of efficiency.
Welocme to ViralQR, your best QR code generator.ViralQR
Welcome to ViralQR, your best QR code generator available on the market!
At ViralQR, we design static and dynamic QR codes. Our mission is to make business operations easier and customer engagement more powerful through the use of QR technology. Be it a small-scale business or a huge enterprise, our easy-to-use platform provides multiple choices that can be tailored according to your company's branding and marketing strategies.
Our Vision
We are here to make the process of creating QR codes easy and smooth, thus enhancing customer interaction and making business more fluid. We very strongly believe in the ability of QR codes to change the world for businesses in their interaction with customers and are set on making that technology accessible and usable far and wide.
Our Achievements
Ever since its inception, we have successfully served many clients by offering QR codes in their marketing, service delivery, and collection of feedback across various industries. Our platform has been recognized for its ease of use and amazing features, which helped a business to make QR codes.
Our Services
At ViralQR, here is a comprehensive suite of services that caters to your very needs:
Static QR Codes: Create free static QR codes. These QR codes are able to store significant information such as URLs, vCards, plain text, emails and SMS, Wi-Fi credentials, and Bitcoin addresses.
Dynamic QR codes: These also have all the advanced features but are subscription-based. They can directly link to PDF files, images, micro-landing pages, social accounts, review forms, business pages, and applications. In addition, they can be branded with CTAs, frames, patterns, colors, and logos to enhance your branding.
Pricing and Packages
Additionally, there is a 14-day free offer to ViralQR, which is an exceptional opportunity for new users to take a feel of this platform. One can easily subscribe from there and experience the full dynamic of using QR codes. The subscription plans are not only meant for business; they are priced very flexibly so that literally every business could afford to benefit from our service.
Why choose us?
ViralQR will provide services for marketing, advertising, catering, retail, and the like. The QR codes can be posted on fliers, packaging, merchandise, and banners, as well as to substitute for cash and cards in a restaurant or coffee shop. With QR codes integrated into your business, improve customer engagement and streamline operations.
Comprehensive Analytics
Subscribers of ViralQR receive detailed analytics and tracking tools in light of having a view of the core values of QR code performance. Our analytics dashboard shows aggregate views and unique views, as well as detailed information about each impression, including time, device, browser, and estimated location by city and country.
So, thank you for choosing ViralQR; we have an offer of nothing but the best in terms of QR code services to meet business diversity!
Observability Concepts EVERY Developer Should Know -- DeveloperWeek Europe.pdfPaige Cruz
Monitoring and observability aren’t traditionally found in software curriculums and many of us cobble this knowledge together from whatever vendor or ecosystem we were first introduced to and whatever is a part of your current company’s observability stack.
While the dev and ops silo continues to crumble….many organizations still relegate monitoring & observability as the purview of ops, infra and SRE teams. This is a mistake - achieving a highly observable system requires collaboration up and down the stack.
I, a former op, would like to extend an invitation to all application developers to join the observability party will share these foundational concepts to build on:
Accelerate your Kubernetes clusters with Varnish CachingThijs Feryn
A presentation about the usage and availability of Varnish on Kubernetes. This talk explores the capabilities of Varnish caching and shows how to use the Varnish Helm chart to deploy it to Kubernetes.
This presentation was delivered at K8SUG Singapore. See https://feryn.eu/presentations/accelerate-your-kubernetes-clusters-with-varnish-caching-k8sug-singapore-28-2024 for more details.
Builder.ai Founder Sachin Dev Duggal's Strategic Approach to Create an Innova...Ramesh Iyer
In today's fast-changing business world, Companies that adapt and embrace new ideas often need help to keep up with the competition. However, fostering a culture of innovation takes much work. It takes vision, leadership and willingness to take risks in the right proportion. Sachin Dev Duggal, co-founder of Builder.ai, has perfected the art of this balance, creating a company culture where creativity and growth are nurtured at each stage.
Le nuove frontiere dell'AI nell'RPA con UiPath Autopilot™UiPathCommunity
In questo evento online gratuito, organizzato dalla Community Italiana di UiPath, potrai esplorare le nuove funzionalità di Autopilot, il tool che integra l'Intelligenza Artificiale nei processi di sviluppo e utilizzo delle Automazioni.
📕 Vedremo insieme alcuni esempi dell'utilizzo di Autopilot in diversi tool della Suite UiPath:
Autopilot per Studio Web
Autopilot per Studio
Autopilot per Apps
Clipboard AI
GenAI applicata alla Document Understanding
👨🏫👨💻 Speakers:
Stefano Negro, UiPath MVPx3, RPA Tech Lead @ BSP Consultant
Flavio Martinelli, UiPath MVP 2023, Technical Account Manager @UiPath
Andrei Tasca, RPA Solutions Team Lead @NTT Data
A tale of scale & speed: How the US Navy is enabling software delivery from l...sonjaschweigert1
Rapid and secure feature delivery is a goal across every application team and every branch of the DoD. The Navy’s DevSecOps platform, Party Barge, has achieved:
- Reduction in onboarding time from 5 weeks to 1 day
- Improved developer experience and productivity through actionable findings and reduction of false positives
- Maintenance of superior security standards and inherent policy enforcement with Authorization to Operate (ATO)
Development teams can ship efficiently and ensure applications are cyber ready for Navy Authorizing Officials (AOs). In this webinar, Sigma Defense and Anchore will give attendees a look behind the scenes and demo secure pipeline automation and security artifacts that speed up application ATO and time to production.
We will cover:
- How to remove silos in DevSecOps
- How to build efficient development pipeline roles and component templates
- How to deliver security artifacts that matter for ATO’s (SBOMs, vulnerability reports, and policy evidence)
- How to streamline operations with automated policy checks on container images
DevOps and Testing slides at DASA ConnectKari Kakkonen
My and Rik Marselis slides at 30.5.2024 DASA Connect conference. We discuss about what is testing, then what is agile testing and finally what is Testing in DevOps. Finally we had lovely workshop with the participants trying to find out different ways to think about quality and testing in different parts of the DevOps infinity loop.
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
Transcript: Selling digital books in 2024: Insights from industry leaders - T...BookNet Canada
The publishing industry has been selling digital audiobooks and ebooks for over a decade and has found its groove. What’s changed? What has stayed the same? Where do we go from here? Join a group of leading sales peers from across the industry for a conversation about the lessons learned since the popularization of digital books, best practices, digital book supply chain management, and more.
Link to video recording: https://bnctechforum.ca/sessions/selling-digital-books-in-2024-insights-from-industry-leaders/
Presented by BookNet Canada on May 28, 2024, with support from the Department of Canadian Heritage.
The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
Clients don’t know what they don’t know. What web solutions are right for them? How does WordPress come into the picture? How do you make sure you understand scope and timeline? What do you do if sometime changes?
All these questions and more will be explored as we talk about matching clients’ needs with what your agency offers without pulling teeth or pulling your hair out. Practical tips, and strategies for successful relationship building that leads to closing the deal.
Mixed funding model. Funded by the public purse through BIS. & partly by commissioned research. Many other research highlights including Carbon capture and storage, Shale gas, Ocean Drilling Program, development of high resolution 3D geological model for flood analysisPollutants in the Thames estuaryRenewable heat and deep geothermalSubsurface aggregate resources Sustainable urban drainageVolcano monitoring from spaceInvestigating new coal technologies
You may have seen our scientists on the news in high vis jackets on hand to comment on the latest earthquake, tsunami, ash cloud. And advise government at a high level in these cases.
The Holbeck landslide, south of Scarborough in North Yorkshire, attracted considerable interest when it destroyed the four-star Holbeck Hall Hotel between the night of 3 June and 5 June 1993. A rotational landslide involving about 1 million tonnes of glacial till cut back the 60 m high cliff by 70 m.
Our primary function was as a survey& although we tend to do less of it these days, the data gathered by survey still underpins a lot of what BGS is doing.
How we survey has become more hi-tech over the years, but the general principles have remained the same ...There is a whole other talk on how we use mobile devices to collect information.BGS•SIGMA mobile is a heavily customised ArcMap development that provides a field data capture system designed to run on rugged tablet PCs with integrated GPS units, with tools for cleaning field linework to make professional quality map outputs.
I’m going to concentrate today on how we use mobile devices and particularly smartphones to deliver informationProvides window to massive collections in NGDC
It’s true that there is a ‘top down’ push for public sector organisations to provide more materials openly e.g. from INSPIRE and UK open data drive (TBL).And there is also a pull from an increasing environmentally aware and ‘tooled up’ community – not just ‘free our data‘ but also ‘give us something to use on our smartphones’But there is an increase drive from the data providers themselves to share more materials, to see them used and shared more to solve environmental problemsThere is also a push from providers to use open supply in order to move away from expensive direct supply methods.A new freemium ‘business model’ is emerging based on more active sharing of data and partnership with users (as they develop new and better uses for it e.g. flooding prediction) aimed at increasing overall ‘impact’Public sector organisations no longer want or need to ‘go it alone’Last 20 years have seen transition from paper to digital mapping and databasesIncreased appreciation of the value of GIS as a business toolEmergence of easy-to-use web-based mapping tools e.g. Google maps, Google EarthExplosion of the internet and mobile devicesData holders encouraged to open up access to their digital resourcesMedia campaigns – the Guardian ‘Free our data’Government’s transparency agendaIT ‘celebrity’ endorsed initiatives – data.gov.uk. Making public data publicGeographic Information Legislation – INSPIRE, UK Location Programme.Aim: to make geospatial data more accessible to a new generation of “tooled up” environmentally aware users
Software downloads such as BGS digital field data capture system
Mobile delivery of spatial information has been very successful in partnership with WMSRejuvenated use of digital geological mapping.Now being used routinely by researchers and consultants:‘I use this all the time on surveys and site visits. It’s a copy of the maps I used to buy in the past’‘Invaluable for those working in the environmental consultancy sector’‘Brilliant stuff: snappy intuitive interface, interesting data, and free.’ESRI International 1st place Community Favorite winner for Best Mobile App AGI Innovation & Best Practice – Highly commendedESRI (UK) Innovation in Central Government– Highly commended
FCScottish Natural heritageSEPAJames Hutton
Mobile technologies are also opening up opportunities for citizen science, although this is still in early daysInteresting spin-off is information on where our maps are used, which could feed back in to data update processes?Hope that BGS information can be used much more widely in this capacity – another opportunity for educational sector (particularly with collaboration across sectors)?
How does iGeology 3D work?iGeology 3D builds a 3D model of the landscape around you and drapes the BGS geological map over the surface. It creates a view of the 3D model matching the view through your camera and displays both on the screen with the geological landscape translucent over the camera view. iGeology 3D uses your phone's GPS to move the view as you walk about the landscape and uses the compass and tilt sensors to keep the 3D geology view lined up with the camera view as you tilt and turn the camera. iGeology 3D constructs a 3D model of the landscape centred on your GPS location, drapes the geological map over the surface and displays the view of it that matches your actual view. The geology is translucent so it appears to colour your camera’s view of the landscape around you.
17th April 2013iGeologyiOS Unique Downloads: 114,993Android Unique Downloads: 28,887[143,880 unique downloads in total] iGeology 3D:Android Unique Downloads: 13,373mySoiliOS Unique Downloads: 12,832Crowdsourced Records: 585iGeology Countries:Total Countries: 12162 Million Map RequestsApprox 200 in app reports sold
Most of our geoscience information has a geographical component, so we use maps to communicate it.The maps we print today aren’t very different from the first ones produced about 200 years ago!Maps are a good tool but have some limitations:Not instantly available – we have to go and buy one.Takes some training and effort to get at detailed information, using a compass.The information is limited to what was printed, it may not be exactly what you need to know.Interactive maps on the web are an improvement in many ways:Available whenever you want them.Can choose from a menu of information to show on them.Click in the map for details instead of looking up symbology in the legend.Smartphone and tablet apps are better again.In your pocket wherever you are.Show you where you are on the map and which way you are facing.Still a map, still takes practice to mentally transfer information from the map to the landscape.Augmented reality apps start to get away from maps altogether. Display information directly onto the camera’s view of the landscape. Tap on a place on the landscape to find out about it. No map reading skills required.