Difference between revisions of "Interoperability and Technology/Tech Dive Webinar Series"

From Earth Science Information Partners (ESIP)
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'''Time:''' Thursday, June 10 (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)
 
'''Time:''' Thursday, June 10 (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)
  
'''Summary:''' We are pleased to host Dave Blodgett,  research geographer with the Integrated Modeling and Prediction Division of the USGS Water Mission Area and Hans Vraga, project manager of the USGS Web Informatics and Mapping team. Dave and Hans will provide an overview of Hydro Network Linked Data Index (NLDI) tools that they have been working to develop.  
+
'''Summary:''' We are pleased to host Dave Blodgett, with the Integrated Modeling and Prediction Division of the USGS Water Mission Area and Anders, Anders Hopkins with the USGS Web Informatics and Mapping team, and Taher Chegini from the University of Houston. They will present on the Hydro Network Linked Data Index and a variety of client tools that work with it.
  
 
The Hydro Network-Linked Data Index (NLDI) is a system that can index data to NHDPlus V2 catchments and offers a search service to discover indexed information. Data linked to the NLDI includes active NWIS stream gages, water quality portal sites, and outlets of HUC12 watersheds. The NLDI is a core product of the Open Water Data Initiative and is being developed as an open source project.
 
The Hydro Network-Linked Data Index (NLDI) is a system that can index data to NHDPlus V2 catchments and offers a search service to discover indexed information. Data linked to the NLDI includes active NWIS stream gages, water quality portal sites, and outlets of HUC12 watersheds. The NLDI is a core product of the Open Water Data Initiative and is being developed as an open source project.
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'''Passcode:''' 507948
 
'''Passcode:''' 507948
  
'''About The Presenters:'''
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Outline:  
 +
* Intro and overview lecture format (Dave – 10 minutes)
 +
* NLDI NWIS & WQP integration demo (Dave – 5 minutes)
 +
* StreamStats use of NLDI context and catchment splitting demo  (Anders – 5 minutes)
 +
* StreamStats down-slope trace and time of travel demo (Anders – 5 minutes)
 +
* Cross-section and model data discovery and retrieval (Dave for Rich – 5 minutes)
 +
* HyRiver overview lecture format (Taher – 5 minutes)
 +
* HyRiver use of the NLDI demo (Taher – 5 minutes)
 +
* nhdplusTools and dataRetrieval use of NLDI demo (Dave – 5 minutes)
 +
* geoconnex.us and adding data sources to the NLDI (Dave – 5 minutes)
 +
* Questions (10 minutes)
  
'''Dave Blodgett'''
+
For more, see: https://waterdata.usgs.gov/blog/nldi-intro/
 
 
<small>Research Geographer</small>
 
 
 
<small>USGS</small>
 
 
 
<small>Water Mission Area - Integrated Modeling and Prediction Division</small>
 
 
 
[[Mailto:jcolgan@usgs.gov|<small>dblo]]
 
 
 
'''Hans Vraga'''
 
 
 
<small>Project Manager</small>
 
 
 
<small>USGS</small>
 
 
 
<small>Water Mission Area – Web Informatics and Mapping</small>
 
 
 
[[Mailto:jcolgan@usgs.gov|<small>h]]
 
  
 
==13 May 2021: "Visualization of Landsat Data stored in the Cloud using LandsatLook 2.0."==
 
==13 May 2021: "Visualization of Landsat Data stored in the Cloud using LandsatLook 2.0."==

Revision as of 19:14, June 9, 2021

Bold text= Tech Dive Webinars =

10 June 2021: "USGS Hydro Network Linked Data Index Tools”

Time: Thursday, June 10 (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Summary: We are pleased to host Dave Blodgett, with the Integrated Modeling and Prediction Division of the USGS Water Mission Area and Anders, Anders Hopkins with the USGS Web Informatics and Mapping team, and Taher Chegini from the University of Houston. They will present on the Hydro Network Linked Data Index and a variety of client tools that work with it.

The Hydro Network-Linked Data Index (NLDI) is a system that can index data to NHDPlus V2 catchments and offers a search service to discover indexed information. Data linked to the NLDI includes active NWIS stream gages, water quality portal sites, and outlets of HUC12 watersheds. The NLDI is a core product of the Open Water Data Initiative and is being developed as an open source project.

Zoom Meeting Connection: https://us02web.zoom.us/j/81907776438?pwd=L2VWY1hBOEdROTlNODUxanZ4T1FhZz09

Meeting ID: 819 0777 6438

Passcode: 507948

Outline:

  • Intro and overview lecture format (Dave – 10 minutes)
  • NLDI NWIS & WQP integration demo (Dave – 5 minutes)
  • StreamStats use of NLDI context and catchment splitting demo  (Anders – 5 minutes)
  • StreamStats down-slope trace and time of travel demo (Anders – 5 minutes)
  • Cross-section and model data discovery and retrieval (Dave for Rich – 5 minutes)
  • HyRiver overview lecture format (Taher – 5 minutes)
  • HyRiver use of the NLDI demo (Taher – 5 minutes)
  • nhdplusTools and dataRetrieval use of NLDI demo (Dave – 5 minutes)
  • geoconnex.us and adding data sources to the NLDI (Dave – 5 minutes)
  • Questions (10 minutes)

For more, see: https://waterdata.usgs.gov/blog/nldi-intro/

13 May 2021: "Visualization of Landsat Data stored in the Cloud using LandsatLook 2.0."

Time: Thursday, May 13 (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Presentation Abstract:

With existing USGS tools you can search for Landsat scenes, view thumbnail browse images of scenes, and download scene-based data, all derived from the 45+ year USGS archive of Landsat scene-based products. Now that Landsat scene data has been unpacked and stored in the cloud, LandsatLook 2.0 can access that data and present it to users in ways that were not previously possible. Thanks to the cloud-optimized GeoTiff format, we're no longer limited by scene-based display rules. Pixel mosaics in an area of interest can be queried and displayed without accessing entire scenes, effectively allowing users to select their own scene boundaries.

LandsatLook 2.0 presents a more pleasing view of the data using mosaicked pixels without scene boundaries. Users can also overlay scene, tile, or political boundaries to help determine an area of interest. Selecting and viewing band combinations of the available imagery is super simple. LandsatLook 2.0 also allows users to select and visualize supplied algorithms like NDVI. Users can display or download an animated GIF file of a selected time series over their selected areas of interest.  LandsatLook 2.0 can also apply quality band information to filter out cloudy pixels and replace them with valid pixels from a different collection date. LandsatLook 2.0 provides download capabilities in several ways. Users can download the GIF produced of your time series, they can also download data based on their selection criteria, narrowed by selecting certain bands or an area of interest. They are not limited to shapes of scenes anymore.

All of this is made possible by the storage of Landsat data in the cloud which allows on-the-fly manipulation of data for tremendous user benefit. The EROS team is excited about these new changes and we hope you are too.

Presenters:

Kristi Kline

Project Manager, Landsat and Sentinel2 Archive and Access (LSAA) Project

U.S. Geological Survey (USGS)

Earth Resources Observation & Science (EROS) Center

Ph: 605-594-2585

Email: kkline@usgs.gov

Kelly Lemig

KBR | User Services Task Lead

Contractor to the U.S. Geological Survey (USGS)

Earth Resources Observation and Science (EROS) Center

Ph: 605-594-2744

Email: klemig@contractor.usgs.gov

Recording:

8 April 2021: "Developing A New Geologic Map Database and 3D Geologic Model of The Great Basin and Rocky Mountains"

Time: Thursday, April 8 (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Zoom Meeting Connection: https://us02web.zoom.us/j/81907776438?pwd=L2VWY1hBOEdROTlNODUxanZ4T1FhZz09

Meeting ID: 819 0777 6438

Passcode: 507948

Summary: We are pleased to host Joe Colgan, Paco Van Sistine, and Kenzie Turner from the USGS Geosciences and Environmental Change Science Center (GECSC). The Geologic Framework of the Intermountain West project was launched with the goal of producing a new digital geologic map database and 3D geologic model of a transect from the Rio Grande rift to the Basin and Range, based on a synthesis of existing geologic maps with new targeted new mapping, subsurface data, and other data sets. This effort integrates disparate map data, resolves inconsistent stratigraphic assignments, and provides an integrated regional geologic map database to further the National Cooperative Geologic Mapping Program’s strategic goal of mapping the Nation. The activity has implemented  new techniques for digital compilation and new procedures for reviewing and publishing large digital geologic data sets.

About The Presenters:

Joseph Colgan

Research Geologist- USGS

Geosciences and Environmental Change Science Center

jcolgan@usgs.gov

Kenzie Turner

Research Geologist- USGS

Geosciences and Environmental Change Science Center

kturner@usgs.gov

Darren (Paco) Van Sistine

Geographer- USGS

Geosciences and Environmental Change Science Center

dvansistine@usgs.gov

Recording:

11 March 2021: “Earth Data Extraction, Exploration and Visualization Using the AppEARS Platform” Tom Maiersperger & Chris Torbert

Time: Thursday, March 11 (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Zoom Meeting: https://us02web.zoom.us/j/81907776438?pwd=L2VWY1hBOEdROTlNODUxanZ4T1FhZz09

Meeting ID: 819 0777 6438

Passcode: 507948

Summary: We are pleased to host Tom Maiersperger and Chris Torbert from the USGS Earth Resources Observation and Science (EROS) Center. Tom and Chris will provide an overview of the Application for Extracting and Exploring Analysis Ready Samples (AppEEARS).  The Land Processes Distributed Active Archive Center (LP DAAC) operates as a partnership between the U.S. Geological Survey (USGS) and the National Aeronautics and Space Administration (NASA) and is a component of NASA’s Earth Observing System Data and Information System (EOSDIS).  The LP DAAC processes, archives, and distributes land data products to hundreds of thousands of users in the earth science community. LP DAAC land data products are made universally accessible and support the ongoing monitoring of Earth’s land dynamics and environmental systems to facilitate interdisciplinary research, education, and decision-making.

The LP DAAC has developed the Application for Extracting and Exploring Analysis Ready Samples (AρρEEARS) tool, which is a data subsetter that provides data access and data value exploration for a variety of data from federal archives.  AppEEARS offers users a simple and efficient way to perform data access and transformation processes.  By enabling users to subset data spatially, temporally, and by layer, the volume of data downloaded for analysis is greatly reduced.

About the Presenters:

Thomas K. Maiersperger

Project Scientist, Land Processes Distributed Active Archive Center (LP DAAC)

U.S. Geological Survey (USGS)

Earth Resources Observation & Science (EROS) Center

Email: [[1]]

Chris Torbert

Land Processes Distributed Active Archive Center (LP DAAC) Manager (acting)

U.S. Geological Survey (USGS)

Earth Resources Observation and Science (EROS) Center

Email: [[2]]

Recording:

11 February 2021: "Elevation Data Processing At Scale - Deploying Open Source GeoTools Using Docker, Kubernetes" Josh Trahern & Andrew Bulen

Time: Thursday, 11, February (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

GoToMeeting: https://global.gotomeeting.com/join/977967029

Summary: We are pleased to host Josh Trahern (Project Manager) and Andrew Bulen (Lead Developer) from the USGS National Geospatial Technical Operations Center (NGTOC).

The scheduled presentation highlights the Lev8 and Valid8 Web Applications, produced by the Elevation team.  These tools are used by Production Operations to support the 3D Elevation Program (3DEP). The 3DEP dataset is a compilation of data from a variety of existing high-precision datasets such as LiDAR data, contour maps, USGS DEM collection, SRTM and other sources which are combined into a seamless dataset, designed to cover all the United States and its territories.

About the Presenters: The U.S. Geological Survey National Geospatial Technical Operations Center (NGTOC) provides leadership and world-class technical expertise in the acquisition and management of trusted geospatial data, services, and map products for the Nation. NGTOC supports The National Map as part of the National Geospatial Program (NGP).

Recording:

10 December 2020: "Environmental Data Retrieval API" EDR-API Standard Working Group Members

Time: Thursday, 10, December (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

GoToMeeting: https://www.gotomeeting.com/join/533510693

Summary: The OGC API - Environmental Data Retrieval candidate standard is part of the OGC API suite of standards. OGC API standards define modular API building blocks to spatially enable Web APIs in a consistent way. OpenAPI is used to define the reusable API building blocks.

  • Dave Blodgett (U.S. Geological Survey) and Chris Little (UK Met Office): general overview and talk about how EDR fits with API-Common an O&M
  • Mark Burgoyne (UK Met Office): details of the API design and demonstration application
  • Lei Hu (Wuhan University) demo and experience implementing
  • Steve Olson and Shane Mill (U.S. National Oceanic and Atmospheric Administration) Demo and plans for EDR
  • Tom Kralidis (Meteorological Service of Canada and pygeoapi) demo and the future of EDR in pygeoapi

See the draft specification here.

EDR github repository here.


12 November 2020: "OGC API Update" Gobe Hobona

Time: Thursday, 12, November (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

GoToMeeting: https://www.gotomeeting.com/join/533510693

Summary: This presentation will describe an emerging suite of Web Application Programming Interface (API) standards by the Open Geospatial Consortium (OGC). The OGC API standards define modular API building blocks to spatially enable Web APIs in a consistent way [3]. The standards make use of the OpenAPI specification for defining API building blocks that describe consistent behavior for accessing resources such as vector feature data, coverage data, metadata records, tiled data, tiled maps, and geospatial processes. The presentation will introduce the standards and also cover the utility of the standards in supporting Earth Science. Examples from several recent and current projects will be shown to demonstrate how Earth Scientists can make use of the standards.

About the Presenter: Dr. Gobe Hobona is the OGC's Director of Product Management, Standards. In this role he manages coordination between Standards Working Groups (SWGs) and set priorities for standards development (in cooperation with SWG chairs). He also provides oversight of OGC Application Programming Interface (API) evolution and harmonization activities. He holds a PhD in Geomatics from Newcastle University. He also holds a Bachelor of Science with Honours in Geographic Information Science from Newcastle University. He is a professional member of both the Royal Institution of Chartered Surveyors (RICS) and the Association for Computing Machinery (ACM).

More: https://ogcapi.ogc.org/

Recording:


8 October 2020: "Quantifying and Communicating Climate Change Risk at First Street" Ed Kearns

Summary: The First Street Foundation is quantifying and communicating the flood and inundation risks posed by a changing environment. First Street has created a nation-wide assessment of flood risk for the contiguous United States (CONUS) and the District of Columbia, and is now sharing that assessment for free with the public through Flood FactorTM. Risk scores for each of the approximately 142 million properties in CONUS were built upon open data from the National Oceanic and Atmospheric Administration (NOAA), the United States Geological Survey (USGS), the US Army Corps of Engineers (USACE), and the Federal Emergency Management Agency (FEMA). Flood risk from rivers, precipitation, sea level rise, and coastal storms have been combined into a single risk assessment methodology to raise individuals' awareness of their risks, and empower them to take steps to reduce their current and future flood risk exposure.

Recording:


10 September 2020: "SELFIE and geoconnex.us update" Dave Blodgett

Summary: This month, I’ll be providing an update on the outcomes of the Second Environmental Linked Features Interoperability Experiment (https://github.com/opengeospatial/SELFIE) and a project using the SELFIE outcomes, https://geoconnex.us. The SELFIE project explored a Web architecture for linking environmental features and observational data with a focus on adoptability and W3C spatial data on the Web best practices. It is wrapped up and in review with the OGC Geosemantics Domain Working Group. Geoconnex.us, US-focused effort being developed by the Ineternet of Water Project at Duke and USGS Water Mission Area, is building on the outcomes of SELFIE to build a system of linked data and knowledge network of earth science data.

Slides: Blodgett, David (2020): IT&I Tech Dive: Second Environmental Linked Features Interoperability Experiment. ESIP. Presentation. https://doi.org/10.6084/m9.figshare.12937445

Recording:

13 August 2020: "ESIP Summer Meeting Highlights"

Time Thursday, 13, August 2020 (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

11 June 2020: "ESIP Collaboration Infrastructure 2.0" Erin Robinson, Ike Hecht, Lucas Cioffi, and Sheila Rabun

Summary: ESIP has been a virtual organization for over 20 years with two in person meetings a year, but our collaborative infrastructure was lagging. Due to COVID-19, ESIP leadership decided to move our next two in-person meetings to virtual meetings (announcement) and to invest funding that would have been spent on travel into the ESIP collaborative infrastructure. We are currently upgrading a few components:

  • Mediawiki upgrade from v1.19 to 1.34 of the ESIP wiki
  • Utilizing QiqoChat to bring together our asynchronous workspaces with our virtual conferences and meetings
  • Becoming an ORCID member to gain access to ORCID API keyes to integrate ORCID authentication into the wiki

We will have three brief presentations on these components from Ike Hecht, WikiWorks on the ESIP Wiki, Lucas Cioffi, QiQoChat lead developer on the technical side of QiQoChat and Sheila Rabun, ORCID US Community Specialist on the ORCID API. Erin Robinson, executive director of ESIP will introduce the session.

14 May 2020: "CUAHSI HydroShare Update" Jerad Bales, Anthony Castronova, Jeff Horsburgh

Summary: HydroShare (https://www.hydroshare.org) is a platform for sharing hydrologic resources (data, models, model instances, geographic coverages, etc.), enabling the scientific community to more easily and freely share products, including the data, models, and workflow scripts used to create scientific publications. HydroShare also includes a variety of social functions, such as resource sharing within a specified group, publication with a DOI, and support for integrating external applications to view and use resources without downloading them. This presentation will provide an overview of HydroShare, details of CUAHSI Compute resources which can be accessed through HydroShare or in a standalone mode, and the metadata model used in HydroShare. This presentation will also describe some community resources held by HydroShare, including comprehensive information on recent hurricanes and the complete Critical Zone Observatory data library.

More info: https://www.hydroshare.org

About the presenters:

Jerad Bales is the Executive Director of the Consortium of Universities for the Advancement of Hydrologic Science, Inc. (CUAHSI), Tony Castronova is Hydrologic Scientist at CUAHSI, and Jeff Horsburgh is an associate professor in the Civil and Environmental Engineering department at Utah State University

Slides: On HydroShare.

9 April 2020: "Unidata Science Gateway" Julien Chastang

Summary: With the goal of better serving our community, Unidata is investigating how its technologies can best make use of cloud computing. The observation that science students and professionals are spending too much time distracted by software that is difficult to access, install, and use, motivates Unidata’s investigation. In addition, cloud computing can tackle a class of problems that cannot be approached by traditional, local computing methods because of its ability to scale and its capacity to store large quantities of data. Cloud computing accelerates scientific workflows, discoveries, and collaborations by reducing research and data friction. We aim to improve “time to science” with the NSF-funded Jetstream cloud. We describe a Unidata science gateway on Jetstream. With the aid of open-source cloud computing projects such as OpenStack, Docker, and JupyterHub, we deploy a variety of scientific computing resources on Jetstream for our scientific community. These systems can be leveraged with data-proximate Jupyter notebooks, and remote visualization clients such as the Unidata Integrated Data Viewer (IDV) and AWIPS CAVE. This gateway will enable students and scientists to spend less time managing their software and more time doing science.

More info: https://science-gateway.unidata.ucar.edu/

Slides: https://doi.org/10.6084/m9.figshare.12124065.v1

About the presenter: I am a scientific software developer for the Unidata Program Center at UCAR (University Corporation for Atmospheric Research) in Boulder, Colorado. I have been employed at UCAR since 1999 and at Unidata since 2010. I obtained a bachelor's degree in molecular, cellular and developmental biology in 1994 and a master's degree in computer science in 2000. I am passionate about the application of computing technology to science and math. During my employment at Unidata I have advocated for open-source, cloud computing and Python related technologies. I began at Unidata as a software developer supporting the Integrated Data Viewer (IDV). More recently, I have been focused on Unidata science gateway efforts with the objective of facilitating science for the Unidata community with web technologies.

12 March 2020: "DGGS in action: provision of rapid response during Australian bushfires and other applications"

Speakers Shane Crossman and Irina Bastrakova

Summary Everything has a location. Location can be defined using descriptive terms (e.g. place names), geometry (e.g. geographic coordinates) and/or index notations (e.g. statistical boundaries). However, existing approaches and disconnected infrastructures limit our ability to discover, access and integrate spatial data across organisation and jurisdiction boundaries to produce up-to-date reliable information. The Location Index project (LOC-I) aims to introduce a consistent way to access, analyse and use location data to support the effective integration of socio-economic, statistical and environmental data from multiple data providers to support the spatially enabled delivery of Government policies and initiatives.

The devastation caused by the Australian Bushfires highlighted the need for a new approach for rapid data integration. The total burnt area during Autumn-Summer 2019-2020 is 72,000 square miles, which is an equivalent to a half of Montana or North Dakota and Delaware areas combined. Rapid response in provision of information on areas affected by the bushfires was required to support evaluation of the impact, and also planning the recovery process and support for families, businesses and the environment. This presentation will discuss application of the Discrete Global Grid System (DGGS) in bringing together diverse complex information from multiple sources to support the response process. The presentation will also discuss testing of the DGGS capability in other use cases.

Slides here: https://doi.org/10.6084/m9.figshare.12032592.v1

13 February 2020: "Urban Flooding Open Knowledge Network": Mike Johnson

We’re back this month with a webinar on the Urban Flooding Open Knowledge Network project from Mike Johnson, a graduate student from UC Santa Barbara. This is an exciting stakeholder-driven knowledge network project with emphasis on prototyping interfaces and web resources, some of which Mike will demonstrate for us.

12 December 2019: "Location Integration Project -- DGGS and Linked Data": Matthew Purss and Shane Crossman (postponed)

Summary Following presentations on DGGS and similar technologies for indexing, this presentation will explore use cases and technical implementations for using DGGS and linked data together in the Loc-I project.

14 November 2019: "Location Integration Project": Matthew Purss and Shane Crossman

Summary Everything has a location. Location can be defined using descriptive terms (e.g. place names, suburb names, and rivers), position and geometry (e.g. geographic coordinates like latitude and longitude) and/or index notations (e.g. mesh block or parcel identifiers). A street address is useful for service delivery; land parcels for revenue raising and investment; coordinates and grids for positioning and monitoring changes in the landscape; various administrative boundaries for law enforcement and service management; and statistical (e.g. health, society or economy) information to analyse and improve life in Australian. However, existing approaches and disconnected infrastructures coupled with the myriad of ways to describe and store location information limit our ability to discover, access and integrate spatial data across organization and jurisdiction boundaries to produce reliable and actionable information. The Location Index project (LOC-I) aims to introduce a consistent way to access, analyse and use location data to support the effective integration of socio-economic, statistical and environmental data from multiple data providers to support the spatially enabled delivery of Government policies and initiatives.

The flexible, and standards based, spatial data infrastructures being developed by Geoscience Australia and its partners under LOC-I include Internet of Things (IoT), Linked Data and Discrete Global Grid Systems (DGGS) technologies integrated with cloud-based data discovery and access tools. This will enable LOC-I to democratize spatial data applications, where people will be able to do spatial data integration operations without needing GIS specialists. This presentation will provide an overview of LOC-I, DGGS and how DGGS technologies can be used as a tool to spatially enable and integrate socio-economic and geospatial data together.

http://locationindex.org

Download the slides here.

10 October 2019: "ELFIE: Environmental Linked Features Interoperability Experiment":

Summary This webinar will provide an update on activities of the OGC Environmental Linked Features Interoperability Experiment (ELFIE) and a preview of activities of the Second ELFIE (SELFIE). This will be an interactive demonstration-based session focused on practical application of JSON-LD to link features and observations.

Presenter: David Blodgett, Civil Engineer, U.S. Geological Survey Water Mission Area

More info on ELFIE here.

Recording

12 September 2019: "STARE: SpatioTemporal Adaptive Resolution Encoding for Scalable Integrative Analysis": Michael Rilee

Summary Title: STARE: SpatioTemporal Adaptive Resolution Encoding for Scalable Integrative Analysis

Abstract: The Earth Science enterprise has generated a great volume and variety of high-quality, high-spatiotemporal resolution data (e.g. level 1 and 2 swath data), that could be integrated to open wide arenas of new, improved scientific advances. Yet aligning and integrating different kinds of Earth Science data is a laborious process, leading most researchers to focus on more generic, high level data products that are more easily compared. Dealing with the great volume and variety is the goal of the NASA/ACCESS-17 STARE project. STARE is a unifying indexing scheme addressing variety and is well suited for applying distributed storage and computing resources to address volume. We will describe the STARE approach and how it relates to other geolocation schemes, e.g. DGGS or simulation grids.

Presenter: Michael Rilee, Ph.D., Rilee Systems Technologies LLC.

Bio: Michael Rilee, PI of the STARE project, has been involved with high-end computing and modeling and simulation for about 25 years. For about the past 5 years or so he has been researching advanced computing techniques for a range of Earth Science applications including parallel computing, array databases, regridding, kriging, and atmospheric chemistry. Before that he was involved with several NASA efforts involving spacecraft autonomy, on-board data processing, and high-end computing. He was initially trained in plasma astrophysics, receiving his Ph.D. from Cornell University.

See poster about STARE here. See demo here. See related research here.

Recording

8 August 2019: "The Challenge of Location and How Discrete Global Grid Systems can enable Spatial Data Integration.": Matthew Purss

Summary Everything has a location. Location can be defined using descriptive terms (e.g. place names, suburb names, and rivers), position and geometry (e.g. geographic coordinates like latitude and longitude) and/or index notations (e.g. mesh block or parcel identifiers). A street address is useful for service delivery; land parcels for revenue raising and investment; coordinates and grids for positioning and monitoring changes in the landscape; various administrative boundaries for law enforcement and service management; and statistical (e.g. health, society or economy) information to analyse and improve life in Australian. However, existing approaches and disconnected infrastructures coupled with the myriad of ways to describe and store location information limit our ability to discover, access and integrate spatial data across organisation and jurisdiction boundaries to produce reliable and actionable information. The Location Index project (LOC-I) aims to introduce a consistent way to access, analyse and use location data to support the effective integration of socio-economic, statistical and environmental data from multiple data providers to support the spatially enabled delivery of Government policies and initiatives.

The flexible, and standards based, spatial data infrastructures being developed by Geoscience Australia and its partners under LOC-I include Internet of Things (IoT), Linked Data and Discrete Global Grid Systems (DGGS) technologies integrated with cloud-based data discovery and access tools. This will enable LOC-I to democratise spatial data applications, where people will be able to do spatial data integration operations without needing GIS specialists. This presentation will provide an overview of LOC-I, DGGS and how DGGS technologies can be used as a tool to spatially enable and integrate socio-economic and geospatial data together.

Dr. Matthew Brian John Purss is a Senior Advisor on Geospatial Standards at Geoscience Australia. He is a founding co-chair of the Open Geospatial Consortium's (OGC) Discrete Global Grid Systems (DGGS) Domain and Standards Working Groups. He is a geophysicist with over 20 years' experience in the exploration, research and government sectors and holds a PhD in Exploration Geophysics from Monash University where he studied grid based approaches to magnetic and electromagnetic modelling applications. Prior to initiating and leading the international standardisation of DGGS infrastructures.

http://locationindex.org

[the slides here.]

Recording

11 July 2019: "ADIwg Open Source Metadata Toolkit": Josh Bradley, Dennis Walworth

Summary Josh Bradley is a data manager for Fish & Wildlife Service, Science Data Applications and project manager for the ADIwg mdTools project. Dennis Walworth is the data manager for the USGS Alaska Science Center and collaborator on the ADIwg mdTools project.

Recording

6 June 2019: "Google Dataset Search: Facilitating data discovery in an open ecosystem.": Chris Gorgolewski

Summary

There are thousands of data repositories on the Web, providing access to millions of datasets. National and regional governments, scientific publishers and consortia, commercial data providers, and others publish data for fields ranging from social science to life science to high-energy physics to climate science and more. Access to this data is critical to facilitating reproducibility of research results, enabling scientists to build on others’ work, and providing data journalists easier access to information and its provenance. In this talk, I will discuss recently launched Google Dataset Search, which provides search capabilities over potentially all dataset repositories on the Web. I will talk about the open ecosystem for describing and citing datasets that we hope to encourage and the technical details on how we went about building Dataset Search. Finally, I will highlight research challenges in building a vibrant, heterogeneous, and open ecosystem where data becomes a first-class citizen.

https://toolbox.google.com/datasetsearch https://www.blog.google/products/search/making-it-easier-discover-datasets/

Recording

9 May 2019: "The SpatioTemporal Asset Catalog (STAC) specification": Chris Holmes

Summary

The SpatioTemporal Asset Catalog (STAC) specification is an emerging standard to make it easier to find geospatial information. It aims to enable a cloud-native geospatial future by providing a common layer of metadata for search and discovery, while playing well with the web and existing geospatial standards.

See the the SpatioTemporal Asset Catalog (STAC) specification web site here.

Time: Thursday, 9, May, 2019 (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Recording


11 Apr 2019: "Pachyderm": John Karabaic

Summary

See the Pachyderm one pager here: https://cdn2.hubspot.net/hubfs/4751021/Business_One_Pager.pdf

"Pachyderm lets you deploy and manage multi-stage, language-agnostic data pipelines while maintaining complete reproducibility and provenance."

Time: Thursday, 11, April, 2019 (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Join meeting:

Speaker: Michael Masters (Pachyderm) See Docs Here: http://docs.pachyderm.io/en/latest/getting_started/local_installation.html

Also see intro talk here: https://changelog.com/practicalai/23

14 Mar 2019: "Integrating SciServer and OceanSpy to enable easy access to oceanographic model output": Mattia Almansi (Johns Hopkins University)

Time: Thursday, 14, March, 2019 (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Summary: OceanSpy is an open-source and user-friendly Python package that enables scientists and interested amateurs to use ocean model data sets with out-of-the-box analysis tools. OceanSpy builds on software packages developed by the Pangeo community (in particular xarray, dask, and xgcm). I will show how OceanSpy can be used on model outputs stored on the Johns Hopkins SciServer system, negating the need for the user to own a computing cluster or even download the data. OceanSpy accelerates and facilitates exploration (including visualization) of terascale data. It is designed to operate on petascale ocean simulations hosted by SciServer in the coming months.

Join meeting:

Speaker: Mattia is a PhD student at Johns Hopkins University under Prof. Tom Haine. He's a physical oceanographer, primarily interested in the dynamics governing the circulation of the Subpolar North Atlantic. To address the targets of his research he uses high-resolution numerical simulations and available observations.

Links

14 Feb 2019: "Cloud Native Geoprocessing of Earth Observation Satellite Data with Pangeo": Scott Henderson (University of Washington)

Summary: NASA has estimated that by 2025, it will be storing upwards of 250 Petabytes (PB) of its data using commercial Cloud services (e.g. Amazon Web Services [AWS]). This presentation will focus on efforts funded by a NASA ACCESS 2017 grant to transition the Earth Science community into Cloud computing by developing technologies that build on top of the growing Pangeo ecosystem. In particular, the integration of JupyterHub with Kubernetes and several high-level Python packages (i.e. Xarray, Dask, Rasterio, Intake, PyViz), are enabling Cloud-native workflows that circumvent the bottleneck of downloading large amounts of data. These tools work best with emerging Cloud-native storage solutions for satellite imagery (i.e. NASA’s CMR, STAC, COGs). In this presentation, Scott gives update on the Pangeo project and showcases a few example workflows using large public archives of optical and radar satellite data.

Speaker: Scott Henderson has a PhD in Geological Sciences from Cornell University and is currently a postdoctoral fellow at the University of Washington eScience Institute. Scott studies geologic hazards with satellite-based synthetic aperture radar.

Links

Recording

13 Dec 2018: "Developing JupyterLab Extensions": Ian Rose (Berkeley)

Summary: JupyterLab extensions can customize or enhance any part of JupyterLab. They can provide new themes, file viewers and editors, or renderers for rich outputs in notebooks. Extensions can add items to the menu or command palette, keyboard shortcuts, or settings in the settings system. Extensions can provide an API for other extensions to use and can depend on other extensions. In fact, the whole of JupyterLab itself is simply a collection of extensions that are no more powerful or privileged than any custom extension. In this talk Ian will demonstrate how to build a JuptyerLab extension.

Time: Thursday, 13 Dec, 2018, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

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Speaker: Ian Rose is a postdoctoral fellow at the Berkeley Institute for Data Science, where he is a core developer on Project Jupyter, working on JupyterLab. He has a PhD in geophysics from Berkeley.

Links:

Recording


8 November 2018: "Intake: Lightweight tools for loading and sharing data in data science projects": Martin Durant (Anaconda)

Summary: Intake is a set of free open-source Python tools that help load data from a variety of formats into familiar containers like Pandas dataframes, Xarray datasets, and more. Boilerplate data loading code can be transformed into reusable Intake plugins. Datasets can be described for easy reuse and sharing using Intake catalog files. Martin will give an overview of Intake and demonstrate use via Jupyter Notebooks.

Time: Thursday, 8 November, 2018, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

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Speaker: Martin Durant is a data scientist and software developer at Anaconda who specializes in Python data engineering tools, instruction and solutions. He also has a PhD in Astrophysics.

Links:

Recording


11 October 2018: "SpatioTemporal Feature Registry: ESIP idea campaign and working example in USGS": Sky Bristol (USGS)

Summary: Building a National Biogeographic Map, an analysis platform for exploring biodiversity conservation measures and stressors, sparked the need for a reliable data source with a wide variety of identified places. These need to be assembled in a sustainable and robust way that keeps track of provenance and processing steps so we can build reports for decisionmakers that are trustworthy and consistent. We started an idea campaign in the ESIP Lab with some questions we have about how best to do this work. This talk will share what we have in place so far, including a registry of sources, a data processing pipeline, an integrated index, a REST API, and a working web application. Technologies include USGS ScienceBase, PostgreSQL/PostGIS, ElasticSearch, Python Flask, and other Python processing codes using GDAL and other libraries.

Time: Thursday, 11 October, 2018, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Join meeting: No live meeting, as something came up at the last minute and Sky can't make it. He did record a 30 minute presentation, however. See "Recording" below. See also the sample Jupyter notebooks in the "Links" section below.

Speaker: Sky Bristol is the branch chief for Biogeographic Characterization in the USGS Core Science Analytics, Synthesis, and Library Program. Unless he can be skiing bumps, he likes doing cool things to help people make better decisions using data.

Links: https://github.com/skybristol/notebooks/blob/master/SFR%20Exploration.ipynb


Recording

9 August 2018: "EarthSim: Flexible Environmental Simulation Workflows Entirely Within Jupyter Notebooks": Dharhas Pothina (ERDC)

Summary: Building environmental simulation workflows is typically a slow process involving multiple proprietary desktop tools that do not interoperate well. In this work, we demonstrate building flexible, lightweight workflows entirely in Jupyter notebooks. The goal is to provide a set of tools that can easily be reconfigured and repurposed as needed to rapidly solve specific emerging issues. As part of this work, extensive improvements were made to several general-purpose open source packages, including support for annotating and editing plots and maps in Bokeh and HoloViews, rendering large triangular meshes and regridding large raster data in HoloViews, GeoViews, and Datashader, and widget libraries for Param.

Time: Thursday, August 9, 2018, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Join meeting:

Speaker: Dharhas Pothina is the Associate Technical Director of the Information Technology Laboratory, US Army Engineer Research and Development Center, in Vicksburg, MS. He was formerly the Water Informatics Lead at the Texas Water Development Board. He holds a Ph.D in Civil Engineering from the University of Texas at Austin.

Links: https://pyviz.github.io/EarthSim/

Recording


14 June 2018: "Analysis of Massive Underwater Video Data in the Cloud using Pangeo": Tim Crone (Lamont)

Summary: An open-source environment for parallel analysis of massive (100TB) image data in the Cloud is now available via the Pangeo environment, which allows you to apply the power of the Python ecosystem from your browser. Technologies include JupyterHub, Kubernetes, Docker, and Dask distributed.

Time: Thursday, June 14, 2018, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Join meeting:

Speaker(s): Tim Crone is a marine geophysicist at Lamont-Doherty Earth Observatory studying spatial variations in the tidal triggering of microearthquakes within ridge systems, and problems in acoustics associated with high-temperature hydrothermal vents and seafloor seismic networks. He has recently deployed the Pangeo framework on the Microsoft Azure Cloud.

Links:

Recording

10 May 2018: "NetCDF-CF Advances - Simple Geometries, Swaths, and Groups"

Speakers Dave Blodgett (USGS), Tim Whiteaker (UT Austin), Aleksander Jelanek (HDF Group) and Daniel Lee (EUMETSAT)==

Summary Simple geometry (points, lines, and polygons) has now been accepted as part of the Open Geospatial Consortium’s NetCDF-CF specification. This a major enhancement to a widely used standard whose utility has previously been limited to time-series of point or (raster) coverage data only. Advances on Groups and Swaths will also be presented.

Links

Recording


12 April, 2018: "Jetstream: A free national science and engineering cloud environment on XSEDE": Jeremy Fischer, Indiana University

Summary: Jetstream, a national science and engineering cloud, adds cloud-based, on-demand computing and data analysis resources to the national XSEDE cyberinfrastructure. A description of Jetstream current and planned capabilities, and how to gain access, will be presented.

Speaker(s): Jeremy Fischer is a Senior Technical Advisor at Indiana University. He works primarily on the Jetstream project, as the technical evangelist getting researchers and educators on the system. In this role, he is the jack of all trades doing unix sys admin work, cloud image maintenance, support, training, documentation, and anything else that needs to happen.

Links:

Recording

8 March, 2018: "Zarr: A simple, open, scalable solution for big NetCDF/HDF data on the Cloud": Alistair Miles, University of Oxford.

Summary: The motivation, current status and future plans for Zarr will be discussed, along with a demo of basic functionality.

Time: Thursday, March 8, 2018, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

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Speaker(s): Alistair Miles is the Head of Epidemiological Informatics for the Kwiatkowski group at the University of Oxford. Before joining the University of Oxford, Alistair was a research scientist at the e-Science Centre at the UK Science and Technology Facilities Council, where he was involved in a range of computing research projects, primarily in the areas of Web and semantic technology, and also in the engineering of production software systems. He is the lead developer for Zarr.

Links:

Recording


8 February, 2018: "The National Data Service Labs Workbench": Craig Willis, NCSA

Summary: The National Data Service Labs Workbench is a platform designed to share, discover, evaluate, develop, and test research data management and analysis tools. Community members can recommend or contribute tools as well as drive the direction, and the Workbench is evolving into a platform for data access, education and training.

Time: Thursday, February 8, 2018, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Join meeting:

Speaker(s): Craig Willis is the Technical Coordinator for the National Data Service and a senior research programmer at the National Center for Supercomputer Applications (NCSA) at the University of Illinois.

Links:

Recording


11 January 2018: "The Pangeo Project": Ryan Abernathy (Lamont) and Matthew Rocklin (Anaconda)

Summary: Pangeo is a scalable, low-barrier-for-entry science platform, with cloud-optimized storage for large multidimensional datasets, such as simulation (met, ocean, hydrologic, climate) model output. Technologies include JupyterHub, Kubernetes, Xarray, Dask, and Zarr. The Pangeo environment has been deployed on the NCAR Cheyenne supercomputer, on Google Cloud and on AWS.

Speaker(s): Ryan Abernathy is a physical oceanographer at Lamont/Columbia, and Matthew Rocklin is a open-source developer for Anaconda.

Links:

Recording Note: This talk was given live at the ESIP winter meeting in North Bethesday, MD, USA.

14 December 2017: "Mini-Hack-Session: Developing and extending Jupyter Widgets": Jason Grout, Bloomberg

Summary: Jupyter widgets (aka ipywidgets) enables building interactive GUIs for Python code using standard form controls (sliders, dropdowns, textboxes, etc.), as well providing a framework for building complex interactive controls such as interactive 2d graphs, 3d graphics, maps, and more. Jason will walk through the thought and technical processes involved with developing new widget capability.

Time: Thursday, Dec 14, 2017, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Join meeting:

Speaker(s): Jason Grout is scientific software developer at Bloomberg. He has been a member of the Project Jupyter team since it's inception in 2014 and a core developer for the Jupyter widgets project. He has a PhD in mathematics from Brigham Young University.

Recording


9 November 2017: "Jupyter Widgets": Jason Grout, Bloomberg

Summary: Jupyter widgets (aka ipywidgets) enables building interactive GUIs for Python code using standard form controls (sliders, dropdowns, textboxes, etc.), as well providing a framework for building complex interactive controls such as interactive 2d graphs, 3d graphics, maps, and more. The latest developments in Jupyter widgets will be discussed as well as plans for the future.

Time: Thursday, November 9, 2017, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Join meeting:

Speaker(s): Jason Grout is scientific software developer at Bloomberg. He has been a member of the Project Jupyter team since it's inception in 2014 and a core developer for the Jupyter widgets project. He has a PhD in mathematics from Brigham Young University.

Recording


12 October 2017: "Research Workspace: A web-based tool for data sharing, documentation, analysis, and publication"

Speakers Rob Bochenek, Axiom Data Science

Summary: The Research Workspace (RW) is a web-based tool designed to support collaborative science and data management tasks throughout the data lifecycle. The RW provides a secure environment for organizing, sharing, documenting, and analyzing scientific datasets, and for publishing datasets through a DataONE member node. As a shared, cloud-based storage environment, the RW is designed for collaborative organization and management of project content. Multiple levels of access and read/write permissions provide transparent, controlled access and oversight to collaborators, funders, and project managers. A custom metadata editor exports standards-compliant metadata (ISO 19115-2 and 19110) and includes tools for easily adding keywords, taxonomic information, keywords, spatial boundaries, and contact information to metadata records. An integrated Jupyter notebooks environment allows R- and Python-based analysis scripts to be written in and run on the RW and to access data in the RW or any data set resource that is hosted within the Axiom Data Science cyber-infrastructure stack. These notebooks serve as transparent, reproducible, and easily-shareable computational analysis and processing tools. Finally, datasets in the RW that have undergone sufficient curation and documentation can be exported to the Research Workspace DataONE Member Node for long-term preservation and broader discoverability and accessibility. More information about the RW and it's capabilities can be found in the help documents -

Time: Thursday, October 12, 2017, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

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Speaker(s): Rob Bochenek is an information architect at Axiom Data Science. Rob has been developing data management and cyber infrastructure solutions for research programs and organizations for the past fifteen years. He is a graduate of the University of Michigan with a degrees in aerospace engineering and mathematics. Early in his career Rob spent five years at the Exxon Valdez Oil Spill Trustee Council leading the data management team in processing, documenting and organizing the informational products produced from the scientific research funded to understand and monitor the ecological effects of the oil spill. Based upon that experience, Rob founded Axiom in 2006 to develop more generalized and holistic solutions for data management. He specializes in scientific geospatial information management with applications to physical/biological modeling and decision support data warehouse knowledge systems.

Links:

Recording

14 September 2017: "JupyterHub and JupyterLab Developments": Brian Granger, Cal Poly

Summary: The latest developments in JupyterHub and JupyterLab will be discussed as well as the roadmap for the future.

Time: Thursday, September 14, 2017, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

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Speaker(s): Brian Granger is an Associate Professor of Physics at Cal Poly State University in San Luis Obispo, CA. He has a background in theoretical atomic, molecular and optical physics, with a PhD from the University of Colorado. His current research interests include quantum computing, parallel and distributed computing and interactive computing environments for scientific and technical computing. He is a core developer of the Jupyter project and is an active contributor to a number of other open source projects focused on scientific computing in Python.


Links:

Recording

31 August 2017: "ERDDAP 5 min Lightning Talks"

Speakers``` Jenn Sevadjian, Jim Potemra, Conor Delaney, Kevin O'Brien, John Kerfoot, Stephanie Petillo, Charles Carleton, Eli Hunter

Summary: A series of 5 minute lightning talks on how people are using ERDDAP to solve environmental data problems.

Time: Thursday, August 31, 2017, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Join meeting:

Speaker(s): Jenn Sevadjian, Jim Potemra, Conor Delaney, Kevin O'Brien, John Kerfoot, Stephanie Petillo, Charles Carleton, Eli Hunter


Recording


10 August 2017: "ERDDAP: Easier access to scientific data": Bob Simons, NOAA

Summary: ERDDAP is a free, open source data server that gives you a simple, consistent way to download subsets of gridded and tabular scientific datasets in common file formats and make graphs and maps.

Time: Thursday, August 10, 2017, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

Speaker(s): Bob Simons is an IT Specialist with NOAA's Environmental Research Division.

Links:

Recording

13 July 2017: "GeoServer Developments": Jody Garnett and Kevin Smith, Boundless

Summary: The latest developments in GeoServer will be discussed as well as plans for the future.

Time: Thursday, July 13, 2017, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

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Speaker(s): Jody Garnett is the Community Lead and Kevin Smith is the GeoWebCache Lead at Boundless.

Links:

Recording

6 June 2017: "Installing JupyterHub in the Cloud using Kubernetes Helm": Yuvi Panda

Summary: Yuvi Panda will show how to deploy JupyterHub in the Cloud using Kubernetes Helm.

Time: Tuesday, June 6, 2017, (Time: 3PM Eastern, 2PM Central, 1PM Mountain, 12PM Pacific)

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Speaker(s): Yuvi Panda is a developer with 15 years of experience and 400+ followers on GitHub. He worked formerly with Wikimedia, and is currently working with the Data Science Education Program at UC Berkeley to make it easier for people who don't consider themselves programmers to write code. He has been very involved with creating the Helm Chart for JupyterHub.

Recording


Links:

11 May 2017: "TerriaJS: A Free, Open-Source Library for Building Web-based Geospatial Data Explorers": Kevin Ring, CSIRO/Data61, Australia

Summary: The library behind the Australian National Map. 3D and 2D geospatial visualization based on Cesium and Leaflet. Visualise WMS, WMTS, WFS, KML, GeoJSON, CSV, CZML, GPX, and many more spatial formats out of the box, or easily add your own. Present a dynamic catalog from your existing WMS, ArcGIS, CKAN, CSW, Socrata, WMTS or WFS server, curate your catalog by hand, or use any combination thereof. Explore time-varying WMS layers, watch vehicles move smoothly across the map, and observe your CSV data change over time.

Time: Thursday, May 11, 2017, (5:00pm ET | 4:00pm CT | 3:00pm MT | 2:00pm PT | 07:00am Sydney Time)

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Speaker(s):

Kevin Ring is a Principal Software Engineer at CSIRO's Data61, and is the lead developer for TerriaJS. Previously, he helped found the Cesium project while working at Analytical Graphics, Inc. (AGI) and developed its streaming terrain and imagery engine.

Links:

Recording

13 April 2017: "Processing Planetary-Scale Data in the Cloud": Drew Bollinger, Development Seed

Summary: Modern cloud-based infrastructure has had a huge effect on our ability to process, manipulate, and publish satellite imagery at scale. We'll discuss current methods of making imagery available across different platforms and how this is supported by the efforts of groups like AWS to publish open satellite data including MODIS, Landsat and more.

Time: Thursday, April 13, 2017, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

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Presenter:

Drew Bollinger is a data analyst and software developer, with experience running advanced statistical and spatial analysis on large and small data sets, as well as building visualizations for data storytelling.

Links:

Slides http://drewbo.com/talks/esip-2017/#0

Recording

9 March 2017: "Introduction to Esri Story Maps": Christine White, Esri

Summary: Today, multi-media communication plays a pivotal role in how an audience experiences, understands, and shares your message. Story Maps bring a narrative to life by weaving maps, text, images, video, and other content into a creative and memorable story. Christine will share several examples of effective Story Maps and then walk through how you can create and configure your own.

Time: Thursday, March 9, 2017, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

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Speaker(s):

Christine is a Technical Advisor and science team member at Esri. She loves using art and technology to communicate about the challenges and opportunities for our future. Christine also serves as the Vice President of ESIP. One of her favorite things about ESIP is how its members offer their unique perspectives (stories) and shared knowledge to collaborate.

Recording

Slides Christine gave her presentation as a live StoryMap, available here:

https://www.arcgis.com/apps/MapSeries/index.html?appid=5a99a82a19c84dbab641a22ddd3d329b

9 February 2017: "Web AppBuilder for ArcGIS": Derek Law, ESRI

Summary: Web AppBuilder for ArcGIS is a pure HTML5/JavaScript-based application that allows you to create your own intuitive, fast, and beautiful web apps without writing a single line of code. The app uses new ArcGIS platform features and modern browser technology to provide both flexible and powerful capabilities such as 3D visualization of data. In addition, developers have an opportunity to create custom tools and themes through the extensibility framework.

Time: Thursday, February 9, 2017, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

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Speaker(s):

Derek Law is an Product Manager at ESRI. He has over 15 years experience with geospatial software and web application development.

Recording

Slides https://speakerdeck.com/esipfed/esri-webapp-builder-derek-law-esri

19 January 2017: "Introduction to Google Earth Engine": Jess Walker, USGS

Summary: Google Earth Engine is a cloud-based geospatial processing platform that unites multiple petabytes of publicly accessible imagery and a massive computational infrastructure with a web-based integrated development environment (IDE). Users can harness the unprecedented combination of data and computing resources to conduct complex geospatial analyses on planetary scales.

Time: Thursday, January 19, 2017, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

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Speaker(s):

Jessica Walker is a postdoctoral researcher with the USGS Western Geographic Science Center in Tucson, AZ. Her research investigates the recovery of post-wildfire landscapes in Alaska and across the southwestern US using time series of remote sensing imagery.


Recording

Slides https://speakerdeck.com/esipfed/introduction-to-google-earth-engine-jessica-walker-usgs

8 December 2016: "Vector Tile Maps": Sam Matthews, Mapbox

Summary: Vector tiles make huge maps fast while offering full design flexibility. They are the vector data equivalent of image tiles for web mapping, applying the strengths of tiling – developed for caching, scaling and serving map imagery rapidly – to vector data. A general overview of vector tiles will be presented.

Speaker(s):

Sam Matthews is a Mapbox engineer focused on improving the speed and reliability of maps. He works with the Mapnik team to generate vector tiles and maintains the upload pipeline behind Mapbox Studio. He is passionate about making open source tools as welcoming as possible through clear docs and zero assumptions.

Time: Thursday, December 8, 2016, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

Join meeting:

Recording https://www.youtube.com/watch?v=wN2-ms2PwBs

Slides https://speakerdeck.com/esipfed/vector-tile-maps-sam-matthews-mapbox

10 November 2016: "Introducing 3D Tiles": Todd Smith, AGI

Summary: 3D Tiles are an open specification for streaming massive heterogeneous 3D geospatial datasets. To expand on Cesium’s terrain and imagery streaming, 3D Tiles will be used to stream 3D content, including buildings, trees, point clouds, and vector data.

Speaker(s):

Todd Smith is the Cesium Product Manager, and helps define and manage the Cesium product line. Todd has been with the AGI team from the beginning and has been in the web mapping world for over 15 years. He is a Penn State GIS graduate.


Time: Thursday, November 10, 2016, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

Join meeting:

Recording https://www.youtube.com/watch?v=0upb4E12CPE

Slides https://speakerdeck.com/esipfed

13 October 2016: "EarthCube Integration and Test Environment (ECITE)": Phil Yang, GMU

Summary: An outgrowth of activities of the EarthCube Technology Architecture Committee (TAC)'s Testbed Working Group (TWG), ECITE provides an integration test-bed for technology and science projects for both EarthCube funded projects and community technology demonstrations. ECITE consists of a seamless federated system of scalable and location independent distributed computational resources (nodes) across the US. The hybrid federated system provides a robust set of distributed resources utilizing including both public and private cloud capabilities.

Speaker(s): Chaowei Phil Yang is a Professor at George Mason University where he founded the NSF Spatiotemporal Innovation Center with colleagues from Harvard and UC-Santa Barbara. He advised over 30 graduate students and has placed over 20 geoinformatics professors around the world. His research interest are utilizing spatiotemporal principles to optimize computing infrastructure for geospatial science applications of national and international significance. (http://cpgis.gmu.edu/homepage/)

Time: Thursday, October 13, 2016, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

Join meeting:

Recording https://www.youtube.com/watch?v=kYi-22hXY6k

Slides https://speakerdeck.com/esipfed


8 September 2016: "Apache Open Climate Workbench": Lewis McGibbney and Kyo Lee, NASA JPL/Apache OCW

Summary: Apache Open Climate Workbench (OCW) is an effort to develop software that performs climate model evaluation using model outputs from a variety of different sources the Earth System Grid Federation, the Coordinated Regional Climate Downscaling Experiment, the U.S. National Climate Assessment and the North American Regional Climate Change Assessment Program and temporal/spatial scales with remote sensing data from NASA, NOAA and other agencies. The toolkit includes capabilities for rebinning, metrics computation and visualization.

Speaker(s): Lewis McGibbney, NASA JPL/Apache OCW; currently a Data Scientist at the NASA Jet Propulsion Laboratory in Pasadena, California, Lewis works in the Computer Science and Data Intensive Applications Group (398M). He enjoys floating up and down the tide of technologies at the Apache Software Foundation having a real enthusiasm for Web Search and Information Retrieval in particular. You'll find him on community mailing lists including Nutch, Gora, Any23, OODT, Open Climate Workbench, Tika, Usergrid and a number of incubating mailing lists including CommonsRDF, HTrace and Joshua. Lewis is currently a Project Management Committee member and Committer on OCW.

Speaker(s): Huikyo Lee, NASA JPL/Apache OCW; currently a Climate Data Scientist at the NASA Jet Propulsion Laboratory in Pasadena, California, Huikyo has lead development of Regional Climate Model Evaluation System (http://rcmes.jpl.nasa.gov), an open-source software toolkit based on Open Climate Workbench to facilitate systematic evaluation of climate models using observational datasets from a variety of sources.

Time: Thursday, September 8, 2016, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

Join meeting:

Recording https://www.youtube.com/watch?v=YA8SZiG9JZk

Slides https://speakerdeck.com/esipfed/apache-ocw

11 August 2016: "Community Data Analysis Tools (CDAT)": Charles Doutriaux, LLNL

Summary: CDAT is a rich set of visual-data exploration and analysis capabilities well-suited for earth science data analysis problems. It integrates many tools and technology to offer scientist a start-to-finish environment for their work. From reading in various data format, to publication-quality output of their analysis.

Speaker: Charles Doutriaux is a senior Lawrence Livermore National Laboratory research computer scientist, where he is known for his work in climate analytics, informatics, and management systems supporting model intercomparison projects. He works closely with many international climate scientists and shares in the recognition of the Intergovernmental Panel on Climate Change 2007 Nobel Peace Prize. He has co­-authored over 30 peer­-reviewed articles. He presented his work to many scientific conferences. Aside from everything Python-related, his research interests include climate attribution and detection, visualization, and data analysis. Doutriaux has a master's degree in "Climate and Physico-­Chemistry of the Atmosphere" from the University Joseph Fourier in Grenoble. He’s a member of the AGU and AMS. You can contact him at doutriaux1@llnl.gov.

Time: Thursday, August 11, 2016, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

Join meeting:

Recording https://www.youtube.com/watch?v=nh2dqAHt5jY

Slides

13 July 2016: "The NOAA OneStop Data Discovery and Access Framework Project": Ken Casey, NOAA/NCEI

Summary: The OneStop Project is designed to improve NOAA's data discovery and access framework. Focusing on all layers of the framework and not just the user interface, OneStop is addressing data format and metadata best practices, ensuring more data are available through modern web services, working to improve the relevance of dataset searches, and improving both collection-level metadata management and granule level metadata systems to accommodate the wide variety and vast scale of NOAA's data.

Speaker: Ken Casey is the Deputy Director of the Data Stewardship Division in the NOAA National Centers for Environmental Information (NCEI). He leads the OneStop project, is active within NOAA's Big Earth Data Initiative and Big Data Project. Ken serves on a variety of national and international science and data management panels including the US Group on Earth Observations Data Management Working Group and the Group for High Resolution Sea Surface Temperature (GHRSST) Science Team. He co-chairs the Committee on Earth Observing Satellites SST Virtual Constellation and represents NCEI in the Federation of Earth Science Information Partners (ESIP). He holds a PhD in Physical Oceanography from the University of Rhode Island.

Time: Wednesday, July 13, 2016, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

Join meeting:

Recording https://youtu.be/wp7trIRFDOs

Slides https://speakerdeck.com/esipfed/noaa-one-stop-ken-casey-ncei

9 June 2016: "Dive into Docker": Kyle Wilcox, Dave Foster and Shane StClair: Axiom Data Science

Summary: Docker is an open platform for distributed applications that has taken the world by storm, making it easy to deploy services with complicated dependencies. In this presentation you will learn what Docker is, why it will make your life easier, how to build a container, and how to install containers.

Speaker: Kyle Wilcox, Dave Foster and Shane StClair are developers at Axiom Data Science. Axiom Data Science works with organizations to improve the long term management, reuse and impact of their scientific data resources. They have built Docker containers for many of the key services used by the U.S. Integrated Ocean Observing System (US-IOOS).

Time: June 9, 2016, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

Join meeting:

Links:

Recording https://youtu.be/mDR_x0E5az0

Slides https://speakerdeck.com/esipfed/dive-into-docker-kyle-wilcox-shane-stclair-dave-foster-axiom-data-science

12 May 2016: "Leaflet Time Dimension": Biel Frontera, SOCIB

Summary: Leaflet.TimeDimension is a free, open-source Leaflet.js plugin that enables visualization of spatial data with a temporal dimension. It can manage different types of layers (WMS, GeoJSON, Overlay) and it can be easily extended. It meet some common needs, enabling web maps using observational and forecasting layers generated by a THREDDS server (via ncWMS), animating trajectories of drifters, gliders, follow a simulated oil spill, and other time dependent mapping applications.

Speaker: Biel Frontera was trained as a mathematician, and has spent most of his career developing software. He is a free software enthusiast and has worked for the last 3 years on data visualization and geospatial software issues for SOCIB, the Baleric Islands Coastal Observing and Forecasting System.

Time: May 12, 2016, (3:00pm ET | 2:00pm CT | 1:00pm MT | 12:00am PT)

Join meeting:

Links:

Recording https://www.youtube.com/watch?v=US5FUUPqlww

Slides https://speakerdeck.com/esipfed/leatlet-time-dimension-biel-frontera-socib

21 Apr 2016: "The New Geoplatform.gov": Tod Dabolt, DOI

Summary: Geoplatform.gov was recently rebuilt from the ground up. Tod will talk about new features of the platform and plans for the future.

Speaker: Tod Dabolt is the acting Geographic Information Officer for the Department of Interior, and the technical lead on Geoplatform.gov.

Time: April 21, 2016, (2:00pm ET | 1:00pm CT | 12:00pm MT | 11:00am PT)

Join meeting:

Links:

Recording https://www.youtube.com/watch?v=f-ABUpy4Qvk

Slides https://speakerdeck.com/esipfed/the-new-geoplatform-tod-dabolt-doi

13 Oct 2015: Raj Pandya on AGU's Thriving Earth Exchange and Sharing Solutions

The Thriving Earth Exchange is a network and platform that connects community leaders, sponsors, and scientists and helps them combine science and local knowledge to solve on-the-ground challenges related to natural hazards, natural resources, and climate change. I’ll talk about the general principles on which we are building TEX and describe the basic modules that are part of the TEX. Drawing on the lessons learned from our pilots, I'll talk about how we are developing modules and launching new projects with several partners. I’ll describe a range of projects – from a community monitoring effort in Denver to a Pamiri Mountain project to integrate climate projections into traditional calendars. I’ll introduce our nascent “share” module, and describe our partnership with Amazon Web Services to move prototype community-based solutions to the cloud to enhance their adaptability. And, just to live up to the name, I’ll frame it all around a small rant about the loading-dock model of science and a rave about more participatory approaches.

Slides

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13 Aug 2015: Rich Signell on Catalog-driven Workflows for Science

"Catalog-driven, reproducible workflows for ocean science: Comparing sea level forecasts along the US Coastline"

Rich Signell

Filipe Fernandes

The USGS Integrated Ocean Observing System (US-IOOS) requires that data providers use standard web services (OPeNDAP+CF, OGC WMS, OGC SOS) for distributing model products and insitu observations. The services are captured in ISO metadata records and searchable via standard catalog services (OGC CSW).

This presentation will demonstrate how to use this system in a reproducible Jupyter Notebook, discovering, accessing and using model and observed water levels along the US Coastline, using a free python environment that can be installed on Mac, Windows and Linux in less than 10 minutes.

Slides

Speaker Deck | PDF

11 June 2015: NDS Labs, Matt Turk

Matt is a member of the NDS Labs technical advisory committee and will present NDS Labs as a platform for exploring data services -- enabling the separation of data and its representation, and how NDS Labs is functioning as an emerging platform for such separation.

Slides PDF