Key lecture for the EURO-BASIN Training Workshop on Introduction to Statistical Modelling for Habitat Model Development, 26-28 Oct, AZTI-Tecnalia, Pasaia, Spain (www.euro-basin.eu)
This document discusses combining the statistical power of R with the user-friendly interface of STATISTICA. Specifically, it proposes using the R DCOM Server to integrate specialized R packages and techniques into STATISTICA's interface. This would allow users to extend STATISTICA's functionality with R's extensive capabilities. As an example, the document describes how an ARL calculator for EWMA and CUSUM control charts could be programmed in R and integrated into STATISTICA using the spc package.
FSF innovation tools for strengthening integrity and risk adjusted certificationFSC Ukraine
This document discusses FSC innovation tools for strengthening certification integrity and risk management, including opportunities for cooperation. It outlines the FSC GIS portal for mapping certified forests, the open knowledge repository, and structured data templates for country risk profiles covering areas like online reputation, stakeholder insights, and spatial analysis. It proposes active support for the forest map by various stakeholders, systematic independent investigation data sharing between stakeholders using templates, integrating GIS tools and research studies, and using communication platforms to enable cooperation. It asks if readers are ready to support these proposals.
GIS combines maps with databases to allow users to analyze geographic information and relationships. It represents real world features as points, lines, and polygons on maps and can overlay multiple data layers. Attributes associated with each feature allow users to perform spatial analysis and answer questions about locations and relationships between different features. GIS is used in many fields including transportation, natural resources, city planning, public health, and more to help with tasks like emergency response, business planning, and environmental analysis.
The document discusses how the UH System has an ArcGIS site license and the UHCL Geography Department plans to add a GIS minor. It provides an overview of the role of the library in supporting GIS activities, including providing access to GIS software and helping users find geospatial data. The document also gives a basic introduction to GIS concepts such as data models, georeferencing, and fundamental GIS operations.
A Traffic Chaos Reduction Approach for Emergency ScenariosMichele Weigle
Syed Rizvi, Stephan Olariu, Mona Rizvi and Michele C. Weigle, “A Traffic Chaos Reduction Approach for Emergency Scenarios,” In Proceedings of the First International Workshop on Research Challenges in Next Generation Networks for First Responders and Critical Infrastructures (NetCri). New Orleans, LA, April 2007, pp. 576–578.
Maps are useful tools for plotting locations of places and objects. They can mark roads, subways, parks, crops, weather reports, wind direction, and rainfall. Maps ease the process of viewing the entire world on paper. Since ancient times, maps have been useful for depicting boundaries of land, water, and other natural resources on Earth. Asia map powerpoint provides a view of the most populous continent, Asia, which comprises 30% of the world's land area and 60% of the human population. It illustrates geographical, topographical, climatic, and historical details about Asia in an effective way. The map includes details that can be useful for disaster management and understanding racial diversity.
NACIS 2016 Presentation
Michael Page, Emory University
Matthew Pierce, Emory University
Alan Pike, Emory University
Jason Yang, Emory University
The Digital Lab of Emory's Center for Digital Scholarship produced a 3D geodatabase and geocoder of circa 1930's Atlanta, Georgia as part of its Atlanta Explorer Project which seeks to transform city directories and historical spatial data into geospatial tools and immersive visualizations for exploring the history of the city. This presentation discusses the methods used and lessons learned from the first phase of the project and how it has informed our strategy to produce geocoders for the years 1867-1930.
Graphs in Excel allow you to visually display data in different chart formats like bar charts, line charts, and pie charts. Charts are useful for understanding large amounts of data and relationships between parts of data by showing comparisons and trends more easily than raw numbers. For example, a line chart could show the relationship between "Distance traveled" on the horizontal x-axis and other data on the vertical y-axis. Charts are a powerful tool for communicating data graphically in Excel.
This document discusses combining the statistical power of R with the user-friendly interface of STATISTICA. Specifically, it proposes using the R DCOM Server to integrate specialized R packages and techniques into STATISTICA's interface. This would allow users to extend STATISTICA's functionality with R's extensive capabilities. As an example, the document describes how an ARL calculator for EWMA and CUSUM control charts could be programmed in R and integrated into STATISTICA using the spc package.
FSF innovation tools for strengthening integrity and risk adjusted certificationFSC Ukraine
This document discusses FSC innovation tools for strengthening certification integrity and risk management, including opportunities for cooperation. It outlines the FSC GIS portal for mapping certified forests, the open knowledge repository, and structured data templates for country risk profiles covering areas like online reputation, stakeholder insights, and spatial analysis. It proposes active support for the forest map by various stakeholders, systematic independent investigation data sharing between stakeholders using templates, integrating GIS tools and research studies, and using communication platforms to enable cooperation. It asks if readers are ready to support these proposals.
GIS combines maps with databases to allow users to analyze geographic information and relationships. It represents real world features as points, lines, and polygons on maps and can overlay multiple data layers. Attributes associated with each feature allow users to perform spatial analysis and answer questions about locations and relationships between different features. GIS is used in many fields including transportation, natural resources, city planning, public health, and more to help with tasks like emergency response, business planning, and environmental analysis.
The document discusses how the UH System has an ArcGIS site license and the UHCL Geography Department plans to add a GIS minor. It provides an overview of the role of the library in supporting GIS activities, including providing access to GIS software and helping users find geospatial data. The document also gives a basic introduction to GIS concepts such as data models, georeferencing, and fundamental GIS operations.
A Traffic Chaos Reduction Approach for Emergency ScenariosMichele Weigle
Syed Rizvi, Stephan Olariu, Mona Rizvi and Michele C. Weigle, “A Traffic Chaos Reduction Approach for Emergency Scenarios,” In Proceedings of the First International Workshop on Research Challenges in Next Generation Networks for First Responders and Critical Infrastructures (NetCri). New Orleans, LA, April 2007, pp. 576–578.
Maps are useful tools for plotting locations of places and objects. They can mark roads, subways, parks, crops, weather reports, wind direction, and rainfall. Maps ease the process of viewing the entire world on paper. Since ancient times, maps have been useful for depicting boundaries of land, water, and other natural resources on Earth. Asia map powerpoint provides a view of the most populous continent, Asia, which comprises 30% of the world's land area and 60% of the human population. It illustrates geographical, topographical, climatic, and historical details about Asia in an effective way. The map includes details that can be useful for disaster management and understanding racial diversity.
NACIS 2016 Presentation
Michael Page, Emory University
Matthew Pierce, Emory University
Alan Pike, Emory University
Jason Yang, Emory University
The Digital Lab of Emory's Center for Digital Scholarship produced a 3D geodatabase and geocoder of circa 1930's Atlanta, Georgia as part of its Atlanta Explorer Project which seeks to transform city directories and historical spatial data into geospatial tools and immersive visualizations for exploring the history of the city. This presentation discusses the methods used and lessons learned from the first phase of the project and how it has informed our strategy to produce geocoders for the years 1867-1930.
Graphs in Excel allow you to visually display data in different chart formats like bar charts, line charts, and pie charts. Charts are useful for understanding large amounts of data and relationships between parts of data by showing comparisons and trends more easily than raw numbers. For example, a line chart could show the relationship between "Distance traveled" on the horizontal x-axis and other data on the vertical y-axis. Charts are a powerful tool for communicating data graphically in Excel.
Key lecture for the EURO-BASIN Training Workshop on Introduction to Statistical Modelling for Habitat Model Development, 26-28 Oct, AZTI-Tecnalia, Pasaia, Spain (www.euro-basin.eu)
This document outlines a basic GIS training session that introduces key concepts. It will cover basic GIS concepts, map appreciation, metadata, and the role of GIS in comprehensive land use planning (CLUP). Participants will learn about GIS hardware, software, data, methodology, and people components. The training will involve competency assessment, presentations, workshops, and hands-on exercises to help participants understand GIS principles, enhance map appreciation skills, and see how GIS can be used in CLUP processes. Outputs include identifying participant competencies and understanding how to develop basic GIS maps for situational analysis in planning.
This document provides an introduction to geographic information systems (GIS). It defines GIS as a system that connects maps and information about locations to support analytical processes. A GIS consists of a database, maps, and computer hardware and software that allow for the collection, management, analysis and display of geographically referenced data. The document discusses key GIS concepts such as layers, features, and attributes. It also provides examples of how GIS is used in various fields such as local government, natural resource management, transportation, business, and more.
This document provides an introduction to Geographic Information Systems (GIS). It defines GIS as a computer system for capturing, storing, manipulating, analyzing and presenting spatially-referenced data. The document discusses examples of GIS applications, the history of GIS from the 1970s to present, and its use in fields like urban planning, hydrological modeling and the water sector. It also compares open source GIS software like QGIS to proprietary software like ESRI ArcGIS, and reviews some key open source GIS tools including GDAL, Python and OSGeo4W.
The document provides an introduction to geographic information systems (GIS) and land information systems. It defines GIS as a set of tools for collecting, modeling, manipulating, analyzing and presenting spatially referenced data. GIS allows for the overlay of different data layers to gain a better understanding of the factors that characterize an area. The document discusses the history of GIS, its components and functions, as well as how it represents spatial data through raster files, vector files, and other methods.
GIS for Transportation Infrastructure ManagementEsri
Being able to visualize your assets and the surrounding environment when you build, upgrade, or repair transportation infrastructure helps you prioritize your work and make the right decisions.
This document provides a short introduction to Geographic Information Systems (GIS). It discusses the purposes of GIS, including using GIS to understand phenomena that have both geographic and temporal dimensions. It also describes how GIS allows users to enter, analyze, and present georeferenced data. The document outlines how GIS represents real world features through models like maps and databases and discusses spatial databases specifically. It positions GIS as existing at the intersection of geography and information science and technology.
Geographic Information Systems (GIS) is a computer system that uses software and hardware to capture, store, analyze and manage spatially referenced data. GIS can be used for various applications such as crime mapping, transportation planning, and infrastructure management. Specifically for road networking, GIS helps with the design, surveying, construction, operation, and maintenance of road networks. It allows users to integrate data, visualize information, and make informed decisions at various stages of the infrastructure life cycle. GIS is becoming increasingly important in Sri Lanka for applications such as transportation planning, rural development, and infrastructure projects.
GIS is a computer system for capturing, storing, analyzing and displaying geographic information. It allows users to integrate digital maps, aerial photos, satellite images and GPS data. The presentation introduces GIS components, data models, how GIS works in a 5 step process, and examples of GIS applications for 3D city modeling, traffic simulation, watershed delineation and political analysis. It also discusses the ArcGIS software suite, including ArcMap for mapping, ArcCatalog for data management and ArcToolbox for geoprocessing tools.
The document discusses the application of remote sensing and geographical information systems (GIS) in civil engineering. It provides definitions of remote sensing as remotely sensing objects on Earth and GIS as a system to capture, store, analyze and present geographically referenced data. The document outlines some basic concepts of GIS including its origins from technologies like computer-aided cartography and databases. It also discusses data types in GIS like spatial data, attributes and different data models. Common software, functional elements and applications of GIS in areas like facilities management and environmental planning are summarized as well.
This document provides an introduction to Geographic Information Systems (GIS) presented by Muhammad Haris. It begins with informal definitions of GIS for beginners and discusses how GIS links spatial and attribute data to find patterns. Examples are given of how GIS represents and analyzes layered data in vector and raster formats. Major application areas of GIS are outlined such as emergency routing and 3D modeling. The presentation concludes with a discussion of common GIS software and where the technology is used.
Aerial surveying technology is utilized in a wide range of fields throughout the world. These range from the creation of maps, to terrain analysis and research (rivers, soil erosion, coasts, etc.), urban planning, road planning (roads, rails, etc.), and vegetation research (forests, agriculture, lakes and marshland, etc.).
This document provides an overview of ArcGIS and its components. It discusses how data are stored in ArcGIS using different data models over time, including coverages, shapefiles, and geodatabases. It describes the main ArcGIS applications - ArcMap for viewing and editing data, ArcCatalog for data management, and ArcToolbox for geoprocessing tools. It also outlines some key ArcGIS extensions for spatial, geostatistical, and 3D analysis.
GIS is a system for managing and analyzing geographic data. It uses two main data models: vector, representing points, lines and polygons; and raster, representing data as a grid of cells. Common file formats include shapefiles for vector data and GeoTIFF and MrSID for raster. GIS data is referenced using coordinate systems like WGS84 for global latitude/longitude or HK80Grid for Hong Kong. ESRI's ArcGIS software allows viewing, editing, and publishing this geospatial data for mapping and analysis.
The document presents a presentation on Geographic Information Systems (GIS). It includes sections on what GIS is, its capabilities and components. GIS is a computer system for capturing, storing, analyzing and managing geographic information and spatial data. The key components of a GIS include hardware, software, data and people. GIS has many applications and uses spatial data and analysis to solve problems across many different domains.
This is presentation is intended for middle school students. It provides a short introduction to GIS and how to use GIS in the real-world.
ArcGIS Explorer is the software used to demonstrate concepts.
45 minutes + 15 minutes demo
Download ArcGIS Explorer here...
http://www.esri.com/software/arcgis/explorer/
This document provides an overview of geographical information systems (GIS), including definitions of GIS, its basic principles and components, data types used in GIS (vector and raster), advantages and applications of GIS. Specifically, it defines GIS as a computer system for capturing, storing, analyzing and displaying spatially referenced data. It describes the key principles of data capture, management, analysis and visualization. It outlines the typical hardware, software and data components of a GIS, and differentiates between vector and raster data types. Finally, it discusses advantages like accurate representation and analysis, and applications across different domains.
Open Science is perfectly adapted to support the basic needs for impact in a "Publish or Perish" reality, so why is community uptake low?
With inertia on numerous advocacy and e-infrastructure initiatives funded by EC and national funders in the ERA, the cultural barriers and discipline-specific behaviour are becoming the bottle neck.
The presentation focuses on how to get the right mix of advocacy and infrastructure development, in order to support long-term implementation of Horizon 2020 Mandate on Access to Scientific Knowledge (Grant Agreement Article 29.1-6).
Marine Sciences are of relevance to many societal challenges, as well as able to capture public imagination and interest. Despite that potential, we are not the leaders we could be at making all our research output publicly accessible, to allow citizen science to take place and facilitate public awareness efforts.
Open Science principles not only feed the need for impact in a "publish or perish" reality, it also fully complements Ocean Literacy and the need to educate and engage the public in marine policy formulation based on sound science.
So, can we afford NOT to make Marine Science open by default?
Invited Presentation at the CIESM 40th Congress, Marseille 29th Oct 2013
Presentation on Why an Open attitude benefits a researcher, during the OpenByDefault event, Danish Technical University.
Organiser: Pedro Parraguez Ruiz, ppru(at)dtu.dk
Sponsors & Supporters:
PhD Association, DTU Library
EU research programme on North Atlantic Marine Ecosystem structure, function and ecosystem services, including carbon sequestration and economically exploitable resources.
Key lecture for the EURO-BASIN Training Workshop on Introduction to Statistical Modelling for Habitat Model Development, 26-28 Oct, AZTI-Tecnalia, Pasaia, Spain (www.euro-basin.eu)
This document outlines a basic GIS training session that introduces key concepts. It will cover basic GIS concepts, map appreciation, metadata, and the role of GIS in comprehensive land use planning (CLUP). Participants will learn about GIS hardware, software, data, methodology, and people components. The training will involve competency assessment, presentations, workshops, and hands-on exercises to help participants understand GIS principles, enhance map appreciation skills, and see how GIS can be used in CLUP processes. Outputs include identifying participant competencies and understanding how to develop basic GIS maps for situational analysis in planning.
This document provides an introduction to geographic information systems (GIS). It defines GIS as a system that connects maps and information about locations to support analytical processes. A GIS consists of a database, maps, and computer hardware and software that allow for the collection, management, analysis and display of geographically referenced data. The document discusses key GIS concepts such as layers, features, and attributes. It also provides examples of how GIS is used in various fields such as local government, natural resource management, transportation, business, and more.
This document provides an introduction to Geographic Information Systems (GIS). It defines GIS as a computer system for capturing, storing, manipulating, analyzing and presenting spatially-referenced data. The document discusses examples of GIS applications, the history of GIS from the 1970s to present, and its use in fields like urban planning, hydrological modeling and the water sector. It also compares open source GIS software like QGIS to proprietary software like ESRI ArcGIS, and reviews some key open source GIS tools including GDAL, Python and OSGeo4W.
The document provides an introduction to geographic information systems (GIS) and land information systems. It defines GIS as a set of tools for collecting, modeling, manipulating, analyzing and presenting spatially referenced data. GIS allows for the overlay of different data layers to gain a better understanding of the factors that characterize an area. The document discusses the history of GIS, its components and functions, as well as how it represents spatial data through raster files, vector files, and other methods.
GIS for Transportation Infrastructure ManagementEsri
Being able to visualize your assets and the surrounding environment when you build, upgrade, or repair transportation infrastructure helps you prioritize your work and make the right decisions.
This document provides a short introduction to Geographic Information Systems (GIS). It discusses the purposes of GIS, including using GIS to understand phenomena that have both geographic and temporal dimensions. It also describes how GIS allows users to enter, analyze, and present georeferenced data. The document outlines how GIS represents real world features through models like maps and databases and discusses spatial databases specifically. It positions GIS as existing at the intersection of geography and information science and technology.
Geographic Information Systems (GIS) is a computer system that uses software and hardware to capture, store, analyze and manage spatially referenced data. GIS can be used for various applications such as crime mapping, transportation planning, and infrastructure management. Specifically for road networking, GIS helps with the design, surveying, construction, operation, and maintenance of road networks. It allows users to integrate data, visualize information, and make informed decisions at various stages of the infrastructure life cycle. GIS is becoming increasingly important in Sri Lanka for applications such as transportation planning, rural development, and infrastructure projects.
GIS is a computer system for capturing, storing, analyzing and displaying geographic information. It allows users to integrate digital maps, aerial photos, satellite images and GPS data. The presentation introduces GIS components, data models, how GIS works in a 5 step process, and examples of GIS applications for 3D city modeling, traffic simulation, watershed delineation and political analysis. It also discusses the ArcGIS software suite, including ArcMap for mapping, ArcCatalog for data management and ArcToolbox for geoprocessing tools.
The document discusses the application of remote sensing and geographical information systems (GIS) in civil engineering. It provides definitions of remote sensing as remotely sensing objects on Earth and GIS as a system to capture, store, analyze and present geographically referenced data. The document outlines some basic concepts of GIS including its origins from technologies like computer-aided cartography and databases. It also discusses data types in GIS like spatial data, attributes and different data models. Common software, functional elements and applications of GIS in areas like facilities management and environmental planning are summarized as well.
This document provides an introduction to Geographic Information Systems (GIS) presented by Muhammad Haris. It begins with informal definitions of GIS for beginners and discusses how GIS links spatial and attribute data to find patterns. Examples are given of how GIS represents and analyzes layered data in vector and raster formats. Major application areas of GIS are outlined such as emergency routing and 3D modeling. The presentation concludes with a discussion of common GIS software and where the technology is used.
Aerial surveying technology is utilized in a wide range of fields throughout the world. These range from the creation of maps, to terrain analysis and research (rivers, soil erosion, coasts, etc.), urban planning, road planning (roads, rails, etc.), and vegetation research (forests, agriculture, lakes and marshland, etc.).
This document provides an overview of ArcGIS and its components. It discusses how data are stored in ArcGIS using different data models over time, including coverages, shapefiles, and geodatabases. It describes the main ArcGIS applications - ArcMap for viewing and editing data, ArcCatalog for data management, and ArcToolbox for geoprocessing tools. It also outlines some key ArcGIS extensions for spatial, geostatistical, and 3D analysis.
GIS is a system for managing and analyzing geographic data. It uses two main data models: vector, representing points, lines and polygons; and raster, representing data as a grid of cells. Common file formats include shapefiles for vector data and GeoTIFF and MrSID for raster. GIS data is referenced using coordinate systems like WGS84 for global latitude/longitude or HK80Grid for Hong Kong. ESRI's ArcGIS software allows viewing, editing, and publishing this geospatial data for mapping and analysis.
The document presents a presentation on Geographic Information Systems (GIS). It includes sections on what GIS is, its capabilities and components. GIS is a computer system for capturing, storing, analyzing and managing geographic information and spatial data. The key components of a GIS include hardware, software, data and people. GIS has many applications and uses spatial data and analysis to solve problems across many different domains.
This is presentation is intended for middle school students. It provides a short introduction to GIS and how to use GIS in the real-world.
ArcGIS Explorer is the software used to demonstrate concepts.
45 minutes + 15 minutes demo
Download ArcGIS Explorer here...
http://www.esri.com/software/arcgis/explorer/
This document provides an overview of geographical information systems (GIS), including definitions of GIS, its basic principles and components, data types used in GIS (vector and raster), advantages and applications of GIS. Specifically, it defines GIS as a computer system for capturing, storing, analyzing and displaying spatially referenced data. It describes the key principles of data capture, management, analysis and visualization. It outlines the typical hardware, software and data components of a GIS, and differentiates between vector and raster data types. Finally, it discusses advantages like accurate representation and analysis, and applications across different domains.
Open Science is perfectly adapted to support the basic needs for impact in a "Publish or Perish" reality, so why is community uptake low?
With inertia on numerous advocacy and e-infrastructure initiatives funded by EC and national funders in the ERA, the cultural barriers and discipline-specific behaviour are becoming the bottle neck.
The presentation focuses on how to get the right mix of advocacy and infrastructure development, in order to support long-term implementation of Horizon 2020 Mandate on Access to Scientific Knowledge (Grant Agreement Article 29.1-6).
Marine Sciences are of relevance to many societal challenges, as well as able to capture public imagination and interest. Despite that potential, we are not the leaders we could be at making all our research output publicly accessible, to allow citizen science to take place and facilitate public awareness efforts.
Open Science principles not only feed the need for impact in a "publish or perish" reality, it also fully complements Ocean Literacy and the need to educate and engage the public in marine policy formulation based on sound science.
So, can we afford NOT to make Marine Science open by default?
Invited Presentation at the CIESM 40th Congress, Marseille 29th Oct 2013
Presentation on Why an Open attitude benefits a researcher, during the OpenByDefault event, Danish Technical University.
Organiser: Pedro Parraguez Ruiz, ppru(at)dtu.dk
Sponsors & Supporters:
PhD Association, DTU Library
EU research programme on North Atlantic Marine Ecosystem structure, function and ecosystem services, including carbon sequestration and economically exploitable resources.
Open Access has many advantages for an early carreer scientist including greater visibility, use of the research and even in many cases increased citations.
This factsheet is produced for the webinar Open Access for Global Climate Change Scientists 2011 ()
Key lecture for the EURO-BASIN Training Workshop on Introduction to Statistical Modelling for Habitat Model Development, 26-28 Oct, AZTI-Tecnalia, Pasaia, Spain (www.euro-basin.eu)
Key lecture for the EURO-BASIN Training Workshop on Introduction to Statistical Modelling for Habitat Model Development, 26-28 Oct, AZTI-Tecnalia, Pasaia, Spain (www.euro-basin.eu)
Key lecture for the EURO-BASIN Training Workshop on Introduction to Statistical Modelling for Habitat Model Development, 26-28 Oct, AZTI-Tecnalia, Pasaia, Spain (www.euro-basin.eu)
Key lecture for the EURO-BASIN Training Workshop on Introduction to Statistical Modelling for Habitat Model Development, 26-28 Oct, AZTI-Tecnalia, Pasaia, Spain (www.euro-basin.eu)
Key lecture for the EURO-BASIN Training Workshop on Introduction to Statistical Modelling for Habitat Model Development, 26-28 Oct, AZTI-Tecnalia, Pasaia, Spain (www.euro-basin.eu)
Key lecture for the EURO-BASIN Training Workshop on Introduction to Statistical Modelling for Habitat Model Development, 26-28 Oct, AZTI-Tecnalia, Pasaia, Spain
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5. Biological data Data extraction Analysis Habitat model Physical data GIS + - = Model Habitat modelling procedure Predictive variables Introduction to Statistical Modelling Tools for Habitat Models Development, 26-28 th Oct 2011 EURO-BASIN, www.euro-basin.eu A B C 1 6 3 4 2 9 1 5 3 1 0 0
6. Introduction to Geographic Information Systems (GIS) AZTI-Tecnalia, Pasaia 26-28 October 2011 Ibon Galparsoro [email_address] Introduction to Statistical Modelling Tools for Habitat Models Development, 26-28 th Oct 2011 EURO-BASIN, www.euro-basin.eu