This corporate presentation summarizes PCI Geomatics as a leading provider of high-speed, scalable image processing solutions. It has over 80 employees, more than 25,000 licenses installed worldwide, and offices in Toronto, Gatineau, USA, and China. The presentation highlights PCI Geomatics' capabilities across the geospatial value chain, from image collection to value-added content. It also outlines the company's competitive advantages in processing speed, sensor agnosticism, and automated workflows.
The document provides an overview of the GXL ortho mosaicking system from PCI Geomatics. It discusses the scalable, automated, and accurate architecture of GXL which uses state-of-the-art hardware and algorithms. The document outlines the key components of GXL including processing servers, a controller, client computers, quality control workstations, and a data server. It also describes the advanced processing capabilities of GXL including GPU processing, parallel processing, and distributed processing.
Web mapping involves designing and delivering maps on the World Wide Web. It has become more accessible due to free and open source software and data. There are several types of web maps, including analytic maps that allow online analysis, animated maps that show changes over time, and collaborative maps that allow multiple users to edit maps simultaneously. Popular technologies used for web mapping include spatial databases for storing and querying geographic data, and WMS servers for generating map images on demand from layered geographic datasets.
DSM Generation Using High Resolution UAV ImagesBiplov Bhandari
This document outlines a project to create a digital surface model (DSM) using images acquired from an unmanned aerial vehicle (UAV). The project aims to develop a workflow for processing UAV images and generate a high-resolution DSM of the study area. The methodology involves collecting UAV images and ground control points, georeferencing the images, generating a dense point cloud through image matching, and creating the DSM. The accuracy of the DSM will then be assessed by comparing elevations to ground measurements. The results are expected to provide a georeferenced image processing workflow and a detailed DSM of the site.
ArcGIS for Server, Portal for ArcGIS and the Road Ahead - Esri norsk BK 2014Geodata AS
The document summarized the key updates and new capabilities in ArcGIS Server 10.2.x, including two new server extensions for real-time event processing and enabling on-premises web GIS via Portal for ArcGIS. It also previewed some of the planned updates for ArcGIS Server and Portal in upcoming 10.3 release, such as new metrics dashboard, stream service, 3D services, and scalable data store tier.
Remote sensing is the science of acquiring information about objects or areas from a distance, typically from aircraft or satellites. Key points of remote sensing include:
1) It allows observation and analysis of an area without direct contact, using sensors to measure electromagnetic radiation reflected or emitted from the target.
2) Remote sensing has evolved from early aerial photography to include various imaging technologies using different parts of the electromagnetic spectrum.
3) Common types of remote sensing include optical, thermal, and microwave sensors, each suited to different applications depending on wavelength.
Laporan ini membahas pelaksanaan praktikum fotogrametri II yang meliputi pembuatan ortofoto dan ekstraksi DEM menggunakan perangkat lunak PCI Geomatica dari foto udara. Praktikum ini bertujuan untuk mempelajari proses ortorektifikasi citra dan ekstraksi DEM secara digital."
NDGeospatialSummit2019 - Drone Based Lidar and the Future of Survey/GISNorth Dakota GIS Hub
This document discusses drone-based LiDAR technology and its benefits over traditional survey methods. HEI has 12 certified drone pilots and uses drones equipped with high-quality sensors to capture LiDAR point clouds for transportation, environmental, and land surveying projects. Drone-based LiDAR allows large areas to be surveyed quickly, safely, and accurately, with point densities over 30 points per square foot. HEI and its partner SkySkopes process the raw LiDAR data to create deliverables like topographic maps, digital terrain models, and 3D models for engineering design in a fraction of the time of traditional ground-based surveying.
The document provides an overview of the GXL ortho mosaicking system from PCI Geomatics. It discusses the scalable, automated, and accurate architecture of GXL which uses state-of-the-art hardware and algorithms. The document outlines the key components of GXL including processing servers, a controller, client computers, quality control workstations, and a data server. It also describes the advanced processing capabilities of GXL including GPU processing, parallel processing, and distributed processing.
Web mapping involves designing and delivering maps on the World Wide Web. It has become more accessible due to free and open source software and data. There are several types of web maps, including analytic maps that allow online analysis, animated maps that show changes over time, and collaborative maps that allow multiple users to edit maps simultaneously. Popular technologies used for web mapping include spatial databases for storing and querying geographic data, and WMS servers for generating map images on demand from layered geographic datasets.
DSM Generation Using High Resolution UAV ImagesBiplov Bhandari
This document outlines a project to create a digital surface model (DSM) using images acquired from an unmanned aerial vehicle (UAV). The project aims to develop a workflow for processing UAV images and generate a high-resolution DSM of the study area. The methodology involves collecting UAV images and ground control points, georeferencing the images, generating a dense point cloud through image matching, and creating the DSM. The accuracy of the DSM will then be assessed by comparing elevations to ground measurements. The results are expected to provide a georeferenced image processing workflow and a detailed DSM of the site.
ArcGIS for Server, Portal for ArcGIS and the Road Ahead - Esri norsk BK 2014Geodata AS
The document summarized the key updates and new capabilities in ArcGIS Server 10.2.x, including two new server extensions for real-time event processing and enabling on-premises web GIS via Portal for ArcGIS. It also previewed some of the planned updates for ArcGIS Server and Portal in upcoming 10.3 release, such as new metrics dashboard, stream service, 3D services, and scalable data store tier.
Remote sensing is the science of acquiring information about objects or areas from a distance, typically from aircraft or satellites. Key points of remote sensing include:
1) It allows observation and analysis of an area without direct contact, using sensors to measure electromagnetic radiation reflected or emitted from the target.
2) Remote sensing has evolved from early aerial photography to include various imaging technologies using different parts of the electromagnetic spectrum.
3) Common types of remote sensing include optical, thermal, and microwave sensors, each suited to different applications depending on wavelength.
Laporan ini membahas pelaksanaan praktikum fotogrametri II yang meliputi pembuatan ortofoto dan ekstraksi DEM menggunakan perangkat lunak PCI Geomatica dari foto udara. Praktikum ini bertujuan untuk mempelajari proses ortorektifikasi citra dan ekstraksi DEM secara digital."
NDGeospatialSummit2019 - Drone Based Lidar and the Future of Survey/GISNorth Dakota GIS Hub
This document discusses drone-based LiDAR technology and its benefits over traditional survey methods. HEI has 12 certified drone pilots and uses drones equipped with high-quality sensors to capture LiDAR point clouds for transportation, environmental, and land surveying projects. Drone-based LiDAR allows large areas to be surveyed quickly, safely, and accurately, with point densities over 30 points per square foot. HEI and its partner SkySkopes process the raw LiDAR data to create deliverables like topographic maps, digital terrain models, and 3D models for engineering design in a fraction of the time of traditional ground-based surveying.
Automated features extraction from satellite images.HimanshuGupta1081
This is the final year civil engineering project presentation in which different features i.e. Buildings, Road Network, Vegetation and Water are extracted automatically from satellite images with the help of Ecognition software. We have done our analysis on satellite images of sikar, rajasthan. In this project object based image analysis (OBIA) approach are used.
Drone flight planning - Principles and PracticesDany Laksono
This document discusses principles of drone flight planning. It explains that flight planning is necessary to ensure drones capture images in the right places and fly safely, especially over large areas. Key aspects of flight planning include the area of interest, desired accuracy, flight height and path, ground control points, image overlap, and drone type. Modern software can automate flight planning by designing paths based on user inputs and calculating flight times and images. Such software can also import map data and avoid obstacles. Overall, proper flight planning is important for safety and obtaining high quality results from drone missions.
OpenStreetMap (OSM) is a collaborative project to create a free editable map of the world. It was founded in 2004 and now has over 500,000 registered users. Data is collected through GPS, local knowledge, and correcting existing maps. The map can be edited online or through applications like JOSM and uploaded. OSM data includes nodes, ways, closed ways, and relations. Rendering transforms the vector data into a more artistic map. OSM has benefits like aiding disaster relief and is compatible with platforms like Ushahidi.
The document provides information about accessing and using data from the Sentinel-2 satellite mission. It outlines several portals for downloading Sentinel-2 imagery, including the ESA SciHub, Amazon Web Services, and USGS websites. It describes how to search for and filter imagery using criteria like date, cloud cover percentage, and region. The document also defines some key terms related to Sentinel-2 imagery like granules, datastrips, and datatakes. It lists the spatial resolutions of the different spectral bands and gives examples of pre-processing steps that can be applied to the data like resampling, atmospheric correction, and classification.
This document discusses real-time GNSS correction sources and their applications and accuracy levels. It describes satellite-based augmentation systems (SBAS), Omnistar satellite differential corrections, Trimble RTX internet and satellite corrections, single base radio/internet corrections, and real-time networks. Accuracies range from 10-15 meters for autonomous GNSS to 1-3 centimeters for fixed baseline survey systems using corrections. The document provides an overview of correction options for different uses like survey, mapping, and their availability in Hawaii.
This document provides an agenda and introduction to OpenStreetMap (OSM). It outlines OSM as a collaborative project to create a free map of the world. The agenda covers introductions to OSM, editing tools, data collection tools, and hands-on mapping. It discusses OSM's history, statistics, the Humanitarian OSM Team, and examples of OSM's use in crisis response and developing countries. It also outlines how to download data, edit maps, and use OSM data in various applications.
This document discusses various geoprocessing tools available in QGIS for manipulating spatial data. It describes tools such as convex hull, buffer, union, intersect, clip, symmetrical difference, and dissolve. For each tool, it provides a definition, explains how to use the tool in QGIS, and shows an example of the output layer. The document serves as a guide to common geoprocessing tasks and spatial analysis that can be performed in QGIS.
GIS models reality through abstraction using a mix of raster, vector, and attribute data tailored to specific functions. Topological vector models record shared geometries like points and lines only once, allowing features to be connected and ensuring integrity as changes propagate between related features. Object-oriented models represent real-world phenomena as interconnected objects with their own rules and relationships.
The document discusses orthorectification and triangulation. It defines orthorectification as the process of removing geometric errors from aerial photographs to produce orthophotos that have consistent scale and orthographic projection like a map but also have photographic detail. Triangulation is defined as determining the location of a point by measuring angles to it from other known points, rather than direct measurements. It can be used to orient aerial photographs and produce 3D point measurements. The document provides details on producing orthophotos using DEM data and forward or backward projection methods. It also gives an example of using triangulation to align a block of aerial images.
Presentation: This presentation gives a brief introduction to tools in ArcGIS and was designed for the Surface Water Quality Monitoring (SWQM) GIS training hosted by Texas Commission on Environmental Quality (TCEQ) staff.
Training: The goal of the SWQM GIS training course is to introduce beginner and intermediate GIS users within the TCEQ surface water monitoring network to the geospatial software, skills, analyses, and data most often used by water resource professionals. The training features presentations from a range of GIS experts from TCEQ, TPWD, and other organizations.
More information on the training: https://www.tceq.texas.gov/waterquality/monitoring/training
Sinopsis:
Software ENVI (The Environment for Visualizing Images) merupakan salah satu software pengolahan data citra yang paling populer yang diproduksi oleh Research System, Inc (RSI). Pada tahun 1977, David Stern, yang bekerja di University of Colorado mengembangkan bahasa pemrograman yang disebut Mariner Mars Spectral Editor, yang kemudian berevolusi menjadi IDL, (Interactive Data Language), untuk melengkapi FORTRAN, khusus untuk analisis dan visualisasi data pada waktu itu. Ketika visinya berkembang, Stern meninggalkan bangku kuliahnya dan mulai bekerja sendiri di rumahnya untuk meningkatkan bahasa pemograman tersebut. Dia menggabungkan RSI dan merilis IDL sebagai bahasa pemrograman untuk memvisualisasikan data. NASA adalah salah satu pelanggan awal ketika itu. Pada tahun 1994, ENVI ditulis dalam IDL berbasis teks dan memungkinkan serangkaian antarmuka pengguna grafis yang berspesialisasi dalam analisis citra penginderaan jauh. RSI diakuisisi oleh Eastman Kodak sebagai anak perusahaan yang sepenuhnya dimiliki pada tahun 2000. Empat tahun kemudian, RSI bersama dengan divisi Sistem Penginderaan Jauh Eastman Kodak, dijual ke ITT Corporation dan berganti nama menjadi ITT Visual Information Solutions. Pada tahun 2011, ITT Corporation dibagi menjadi tiga perusahaan mandiri, dan ITT Visual Information Solutions menjadi bagian dari Exelis Inc. bersama dengan ITT Defense and Information Solutions. Pada 2015 Exelis Visual Information Solutions dibeli oleh Harris Corporation, menjadi Harris Geospatial Solutions.
.................................................
Pengarang : Luhur Moekti Prayogo
Tanggal Terbit : 2020/5/28
Jilid : 1
Halaman : vii + 132 hal - ISBN: 978-623-278-093-4
Penerbit : Farha Pustaka
#luhurbooks
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.
State of the Map Asia is an annual gathering of people who contribute to OpenStreetMap (OSM) movement in Asia in different ways. During the conference, representatives from different countries of Asia presented the state of OpenStreetMap in their countries, as well as participate in discussions, mapping activities, workshops and events related to the free and open map of the world.
During the Nepal session, there were four presentations where the presenter talked about different kind of projects that are being done around OSM and Open data with the use of different tools and frontier technologies . I represented Nepal Flying Labs ,WeRobotics and gave 10 minute lightning talk on the topic : Drones and Open Street Maps. I briefly talked about the regulatory environment in the country for use of Drones and its current status. I also highlighted on the possibility of using high resolution satellite images as a Base Map in the Open street maps thus allowing any users to easily identify ground details and help them manually trace the objects more accurately.
I would like to thank Kathmandu Living Labs, the main organizer of this event for providing us this opportunity.
This document provides an overview of image classification tools in ArcGIS 10:
- Image classification allows converting multiband satellite images into single band images with defined or undefined classes.
- ArcGIS 10 introduces an image classification toolbar with different classification techniques like unsupervised iso clustered classification.
- Training samples developed in other software can be used, and samples can be created or opened in the sample manager for supervised classification.
Unmanned Aerial Systems for Precision MappingUAS Colorado
Presentation by Renee Walmsley, Remote Sensing Program Manager at Tetra Tech, for the August 16, 2017 Rocky Mountain UAS Professionals Meetup at the Esri Broomfield office.
PCI Geomatics is a leading geospatial software and solutions company with over 70 employees and 25,000 licenses installed worldwide. They provide powerful and scalable image processing solutions to extract information from satellite imagery such as SAR (Synthetic Aperture Radar) and LIDAR. Their capabilities include orthorectification, image classification, change detection, and digital elevation model extraction. They support a variety of sensors and applications in areas such as maritime surveillance, disaster response, and natural resource monitoring.
2008 brokerage 04 smart vision system [compatibility mode]imec.archive
Smart vision systems embed intelligence through advanced image processing to enhance visual experiences, improve interactions, and facilitate decisions for complex events. They require increasingly complex algorithms to perform tasks like 3D reconstruction, gesture recognition, and event detection. These algorithms must be matched to diverse platform architectures with different performance and power constraints. Successful system design requires matching applications, algorithms, and architectures, drawing on competencies in all three areas. The International B-ICT Based Basic Research Centre (IBBT) brings these competencies together to enable new smart vision applications.
Automated features extraction from satellite images.HimanshuGupta1081
This is the final year civil engineering project presentation in which different features i.e. Buildings, Road Network, Vegetation and Water are extracted automatically from satellite images with the help of Ecognition software. We have done our analysis on satellite images of sikar, rajasthan. In this project object based image analysis (OBIA) approach are used.
Drone flight planning - Principles and PracticesDany Laksono
This document discusses principles of drone flight planning. It explains that flight planning is necessary to ensure drones capture images in the right places and fly safely, especially over large areas. Key aspects of flight planning include the area of interest, desired accuracy, flight height and path, ground control points, image overlap, and drone type. Modern software can automate flight planning by designing paths based on user inputs and calculating flight times and images. Such software can also import map data and avoid obstacles. Overall, proper flight planning is important for safety and obtaining high quality results from drone missions.
OpenStreetMap (OSM) is a collaborative project to create a free editable map of the world. It was founded in 2004 and now has over 500,000 registered users. Data is collected through GPS, local knowledge, and correcting existing maps. The map can be edited online or through applications like JOSM and uploaded. OSM data includes nodes, ways, closed ways, and relations. Rendering transforms the vector data into a more artistic map. OSM has benefits like aiding disaster relief and is compatible with platforms like Ushahidi.
The document provides information about accessing and using data from the Sentinel-2 satellite mission. It outlines several portals for downloading Sentinel-2 imagery, including the ESA SciHub, Amazon Web Services, and USGS websites. It describes how to search for and filter imagery using criteria like date, cloud cover percentage, and region. The document also defines some key terms related to Sentinel-2 imagery like granules, datastrips, and datatakes. It lists the spatial resolutions of the different spectral bands and gives examples of pre-processing steps that can be applied to the data like resampling, atmospheric correction, and classification.
This document discusses real-time GNSS correction sources and their applications and accuracy levels. It describes satellite-based augmentation systems (SBAS), Omnistar satellite differential corrections, Trimble RTX internet and satellite corrections, single base radio/internet corrections, and real-time networks. Accuracies range from 10-15 meters for autonomous GNSS to 1-3 centimeters for fixed baseline survey systems using corrections. The document provides an overview of correction options for different uses like survey, mapping, and their availability in Hawaii.
This document provides an agenda and introduction to OpenStreetMap (OSM). It outlines OSM as a collaborative project to create a free map of the world. The agenda covers introductions to OSM, editing tools, data collection tools, and hands-on mapping. It discusses OSM's history, statistics, the Humanitarian OSM Team, and examples of OSM's use in crisis response and developing countries. It also outlines how to download data, edit maps, and use OSM data in various applications.
This document discusses various geoprocessing tools available in QGIS for manipulating spatial data. It describes tools such as convex hull, buffer, union, intersect, clip, symmetrical difference, and dissolve. For each tool, it provides a definition, explains how to use the tool in QGIS, and shows an example of the output layer. The document serves as a guide to common geoprocessing tasks and spatial analysis that can be performed in QGIS.
GIS models reality through abstraction using a mix of raster, vector, and attribute data tailored to specific functions. Topological vector models record shared geometries like points and lines only once, allowing features to be connected and ensuring integrity as changes propagate between related features. Object-oriented models represent real-world phenomena as interconnected objects with their own rules and relationships.
The document discusses orthorectification and triangulation. It defines orthorectification as the process of removing geometric errors from aerial photographs to produce orthophotos that have consistent scale and orthographic projection like a map but also have photographic detail. Triangulation is defined as determining the location of a point by measuring angles to it from other known points, rather than direct measurements. It can be used to orient aerial photographs and produce 3D point measurements. The document provides details on producing orthophotos using DEM data and forward or backward projection methods. It also gives an example of using triangulation to align a block of aerial images.
Presentation: This presentation gives a brief introduction to tools in ArcGIS and was designed for the Surface Water Quality Monitoring (SWQM) GIS training hosted by Texas Commission on Environmental Quality (TCEQ) staff.
Training: The goal of the SWQM GIS training course is to introduce beginner and intermediate GIS users within the TCEQ surface water monitoring network to the geospatial software, skills, analyses, and data most often used by water resource professionals. The training features presentations from a range of GIS experts from TCEQ, TPWD, and other organizations.
More information on the training: https://www.tceq.texas.gov/waterquality/monitoring/training
Sinopsis:
Software ENVI (The Environment for Visualizing Images) merupakan salah satu software pengolahan data citra yang paling populer yang diproduksi oleh Research System, Inc (RSI). Pada tahun 1977, David Stern, yang bekerja di University of Colorado mengembangkan bahasa pemrograman yang disebut Mariner Mars Spectral Editor, yang kemudian berevolusi menjadi IDL, (Interactive Data Language), untuk melengkapi FORTRAN, khusus untuk analisis dan visualisasi data pada waktu itu. Ketika visinya berkembang, Stern meninggalkan bangku kuliahnya dan mulai bekerja sendiri di rumahnya untuk meningkatkan bahasa pemograman tersebut. Dia menggabungkan RSI dan merilis IDL sebagai bahasa pemrograman untuk memvisualisasikan data. NASA adalah salah satu pelanggan awal ketika itu. Pada tahun 1994, ENVI ditulis dalam IDL berbasis teks dan memungkinkan serangkaian antarmuka pengguna grafis yang berspesialisasi dalam analisis citra penginderaan jauh. RSI diakuisisi oleh Eastman Kodak sebagai anak perusahaan yang sepenuhnya dimiliki pada tahun 2000. Empat tahun kemudian, RSI bersama dengan divisi Sistem Penginderaan Jauh Eastman Kodak, dijual ke ITT Corporation dan berganti nama menjadi ITT Visual Information Solutions. Pada tahun 2011, ITT Corporation dibagi menjadi tiga perusahaan mandiri, dan ITT Visual Information Solutions menjadi bagian dari Exelis Inc. bersama dengan ITT Defense and Information Solutions. Pada 2015 Exelis Visual Information Solutions dibeli oleh Harris Corporation, menjadi Harris Geospatial Solutions.
.................................................
Pengarang : Luhur Moekti Prayogo
Tanggal Terbit : 2020/5/28
Jilid : 1
Halaman : vii + 132 hal - ISBN: 978-623-278-093-4
Penerbit : Farha Pustaka
#luhurbooks
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.
State of the Map Asia is an annual gathering of people who contribute to OpenStreetMap (OSM) movement in Asia in different ways. During the conference, representatives from different countries of Asia presented the state of OpenStreetMap in their countries, as well as participate in discussions, mapping activities, workshops and events related to the free and open map of the world.
During the Nepal session, there were four presentations where the presenter talked about different kind of projects that are being done around OSM and Open data with the use of different tools and frontier technologies . I represented Nepal Flying Labs ,WeRobotics and gave 10 minute lightning talk on the topic : Drones and Open Street Maps. I briefly talked about the regulatory environment in the country for use of Drones and its current status. I also highlighted on the possibility of using high resolution satellite images as a Base Map in the Open street maps thus allowing any users to easily identify ground details and help them manually trace the objects more accurately.
I would like to thank Kathmandu Living Labs, the main organizer of this event for providing us this opportunity.
This document provides an overview of image classification tools in ArcGIS 10:
- Image classification allows converting multiband satellite images into single band images with defined or undefined classes.
- ArcGIS 10 introduces an image classification toolbar with different classification techniques like unsupervised iso clustered classification.
- Training samples developed in other software can be used, and samples can be created or opened in the sample manager for supervised classification.
Unmanned Aerial Systems for Precision MappingUAS Colorado
Presentation by Renee Walmsley, Remote Sensing Program Manager at Tetra Tech, for the August 16, 2017 Rocky Mountain UAS Professionals Meetup at the Esri Broomfield office.
PCI Geomatics is a leading geospatial software and solutions company with over 70 employees and 25,000 licenses installed worldwide. They provide powerful and scalable image processing solutions to extract information from satellite imagery such as SAR (Synthetic Aperture Radar) and LIDAR. Their capabilities include orthorectification, image classification, change detection, and digital elevation model extraction. They support a variety of sensors and applications in areas such as maritime surveillance, disaster response, and natural resource monitoring.
2008 brokerage 04 smart vision system [compatibility mode]imec.archive
Smart vision systems embed intelligence through advanced image processing to enhance visual experiences, improve interactions, and facilitate decisions for complex events. They require increasingly complex algorithms to perform tasks like 3D reconstruction, gesture recognition, and event detection. These algorithms must be matched to diverse platform architectures with different performance and power constraints. Successful system design requires matching applications, algorithms, and architectures, drawing on competencies in all three areas. The International B-ICT Based Basic Research Centre (IBBT) brings these competencies together to enable new smart vision applications.
2008 brokerage 04 smart vision system [compatibility mode]imec.archive
Smart vision systems embed intelligence through advanced image processing to enhance visual experiences, improve interactions, and facilitate decisions. They require increasingly complex algorithms to perform tasks like 3D reconstruction, gesture recognition, and event detection. These algorithms must be matched to diverse platform architectures with different performance and power constraints. Successful system design requires matching applications, algorithms, and architectures. The document discusses examples including 3D video interpolation, eye-gaze corrected video chatting, and a 3D camera prototype for elderly monitoring. It concludes that IBBT brings together competences in applications, algorithms, and architectures to enable new smart vision systems.
2012 GISCO Track, Emerging Technologies for Field Data Capture, Bill TimminsGIS in the Rockies
Mobile GIS solutions that are easy to use and inexpensive can enable field personnel to access and input geospatial data, eliminating technology barriers. These solutions allow for field data capture, review capabilities, and interactive comments. They provide intra-agency and inter-agency coordination to support workflow requirements and understanding of roles. Examples include using digital pens and GPS-enabled cameras on Android devices to create and collect geospatial features and forms for vulnerability assessments. The captured data can then be shared to facilitate collaboration and situational awareness.
This document provides an overview of enterprise GIS system architecture design. It discusses the system design process, GIS technology, data administration, network communications, and Esri architecture. Key aspects of system performance including software, hardware, and virtualization are also covered. The document concludes with an example of using Esri's Capacity Planning Tool to help with system design.
TELUS Case Study: iVAULT implementation improved corporate intelligence eventspat
This document summarizes a webinar about TELUS's implementation of the iVAULT content management system. Some key points:
- iVAULT was implemented to improve TELUS's corporate intelligence by creating a centralized spatial data store and new FieldView application. This consolidated data from disparate legacy systems and maps like ArcGIS, MapGuide, and Google Maps.
- The new architecture included an Oracle spatial data store replicating TELUS infrastructure data from their Intergraph Framme system. This cleaned up issues and standardized the data.
- A new FieldView application was developed to provide customized analysis tools for various departments through a web interface on both desktop and mobile.
- The
ArcGIS 10.1 aims to:
1) Expand capabilities across mobile, web, and desktop GIS platforms to empower more users and strengthen traditional GIS.
2) Provide new online GIS capabilities through ArcGIS Online and improve server functionality.
3) Enhance tools for visualization, analysis, and data management to improve workflows and create better understanding.
ArcGIS 10.1 will introduce many new capabilities across online, desktop, server, mobile, and developer platforms. Key themes include advances in 3D GIS, image integration/exploitation, Lidar support, improved sharing of maps/data/tools, web and mobile mapping, and initiatives to organize industry solutions and best practices. Developers will benefit from new APIs and an embedded runtime to enable geospatial functionality.
Image Stitching: Exploring Practices, Software and Performance, D.Williams & ...Burns Digital Imaging LLC
This document discusses image stitching techniques, software, and performance. It begins by defining image stitching as merging separate digital images of an object into a single larger image, requiring integration of spatial and luminance information. It then categorizes stitching into high-total ownership projects done by museums and high-end institutions, and affordable commercial off-the-shelf (COTS) software used by libraries and service bureaus. Typical stitching workflows and software operations are described, including aligning images, identifying features, and merging tiles. Challenges with COTS software are discussed. Sources of errors are identified and approaches to detection, prevention and correction are presented. Alternative scanning solutions are mentioned. The conclusions emphasize that visually pleasing results do
Icaros Photogrammetric Suite (IPS) Module OverviewIcarosMapping
Product Overview - Icaros Photogrammetric Suite (IPS) of software. Includes descriptions of each module of IPS, to include aerial triangulation, elevation extraction, orthoproduction, and advanced editing tools.
The document provides an overview of new features in ArcGIS 10.1, including improvements to data management, mapping and visualization, geoprocessing and analysis, and GIS on the web. Key updates include enhanced feature tracking, lidar and imagery analysis tools, database management interfaces, dynamic legends, 85 new geoprocessing tools, easier workflows, and a focus on web applications using technologies like Flex, Silverlight, and JavaScript that are easier to configure and deploy. The new version also improves server performance with native 64-bit capabilities and aims to make GIS capabilities more accessible to all users.
GWT 2014: Emergency Conference - 02 le soluzioni geospaziali per la gestione ...Planetek Italia Srl
Geospatial World Tour 2014: Emergency Conference.
Napoli, 28 maggio 2014.
Le soluzioni Geospaziali per la gestione delle emergenze.
Simone Colla, Hexagon Geospatial
This document discusses the use of the Data Uncertainty Engine (DUE) software by national mapping and cadastral agencies to estimate positional accuracy and areas. It provides an overview of the DUE software, which can estimate positional accuracy of points and areas by accounting for uncertainties in data. It then gives examples of using DUE to analyze the positional accuracy of points digitized from an analog cadastral map compared to laser scanning data, and to estimate uncertainties in cadastral lot areas.
TELUS Case Study: GIS for Telecommunicationseventspat
This document describes how TELUS implemented an iVAULT system to improve access to and use of their spatial data. Key points:
1. TELUS integrated their disparate GIS systems and data into a single iVAULT system with a spatial data store, allowing unified access for field users and departments.
2. The iVAULT system included a new FieldView application for viewing, searching, analyzing and editing spatial and attribute data via web and mobile.
3. The spatial data store cleaned up TELUS' IMAGE database and consolidated over 1,000 design files, improving data quality and access.
4. The unified system allows TELUS to better analyze customer and network data
Big Data is growing rapidly in terms of volume, variety, and velocity. The cloud is well-suited to handle Big Data challenges by providing elastic and scalable infrastructure, which optimizes resources and reduces costs compared to traditional IT. In the cloud, users can collect, store, analyze and share large amounts of data without upfront investment, and scale easily as needs change. Real-world examples show how companies in industries like banking, retail, and advertising are using the cloud's Big Data services to gain insights from large datasets.
[03 1][gpu용 개발자 도구 - parallel nsight 및 axe] miller axelaparuma
NVIDIA provides a family of software modules called Application Acceleration Engines (AXE) that enable developers to enhance applications with high performance GPU capabilities. The AXE include PhysX, Cg/CgFX, SceniX, CompleX, and OptiX which are free to use and help apps exploit NVIDIA GPUs. These engines provide features like physics simulation, programmable shading, scene management, scaling to large datasets, and ray tracing to accelerate application development.
This document discusses how the cloud is well suited to address the challenges of big data. It notes that big data sets are getting larger and more complex, requiring new tools and approaches. The cloud optimizes precious IT resources by enabling elastic scaling, global accessibility, easy experimentation, and reducing costs. The cloud empowers users to balance costs and time. Several real-world examples are provided, such as banks using the cloud to perform Monte Carlo simulations and retailers using it for targeted recommendations and click stream analysis.
6. We provide…
Powerful and scalable
image processing
solutions that let you
quickly and efficiently
produce information
products from any type
of imagery
SCALABLE TO WE ARE UNMATCHED
ANY SIZE SENSOR AUTOMATED
PROJECT AGNOSTIC WORKFLOWS
BUILDING
HIGH SPEED ADVANCED
SOLUTIONS
MULTI FOR RADAR
CPU / GPU CAPABILITY
30 YEARS
7. WHICH SOLUTION IS RIGHT FOR YOU?
$1M
$500
Price
($000’s)
$200
$10
10 GB 100 GB 500 GB 1 - 5TB 5 - 10TB
8. WE ARE NIMBLE…
So is our technology
Ingest
Discover View Process Ortho QA Export Analyze
Mosaic
Prep
13. Mosaic Tool
View Mosaic Preview
Saves back to project xml file
Edit cut lines
to run through Mosaic
Generation Edit Normalization
Edit Color balancing
24. Forest Monitoring
APPLICATIONS:
Assess Health of Forestry
Monitor Deforestation
Timber Harvest
Amazon, Brazil
Multispectral Image draped
over terrain model
District of North Vancouver
IKONOS data used to identify
and assess the health of
urban forest stands
25. Land Use Mapping
Image
Multispectral Image Classification Land Use Map
28. For over 20 years, i-cubed has used PCI software to generate high quality orthorectified products that are
delivered to its customers through various platforms, including on-demand streaming. Processing large
land masses is a critical aspect for i-cubed, since customers look for the depth of their imagery catalogs
over different areas of interest around the world.
OTHER RESULTS
Ability to process multiple different types
“
of images to create seamless mosaics
“We never would have
High quality pan-sharpened image undertaken a project of
products this magnitude if not for
the cost-effective
automation and flexibility
that PCI software offers”
- Russ Cowart
President
29. Blackbridge Geomatics operates a ground receiving station in Lethbridge, Alberta. They use PCI
technology to quickly and efficiently produce continuous maps of complete provinces (e.g. Alberta,
British Columbia) based on the large volumes of SPOT imagery.
OTHER RESULTS
Ability to scale operations based on
demand
“
Traditional methods for
National Imagery Project: over 5,000
correcting SPOT images were
SPOT 4/5 images orthorectified covering simply too expensive and time-
the complete Canadian landmass (see: intensive to meet the needs of
http://www.profsurv.com/magazine/article.aspx?i=70337) our client, the Government of
Canada. The scalability of a PCI
Geomatics automated
orthorectification system will
allow for the rapid and cost-
effective production of accurate
images with little user
intervention”
- Brett Michelson
Vice President
30. Esri invited PCI to become a Gold Level Business partner in 2009, recognizing PCI’s expertise in high
speed, high quality satellite image processing. Faced with the daunting task of pan sharpening,
orthorectifying and mosaicking 50 million km2 of GeoEye imagery, Esri turned to PCI Geomatics.
OTHER RESULTS
“
“Through the use of the GXL Implementation of a Cloud
based GXL system capable of
Cloud system that PCI has processing up to 3 terabytes
per day
deployed to our Amazon Cloud
instances, we are working Integrated processing and
publishing petabytes of color
diligently to provide high- balanced, continuous base
resolution and high-quality imagery to www.ArcGIS.com
content as quickly as possible See http://pci.gl/wdqxP7 for
for the samples of Esri published
ArcGIS Online platform” imagery processed by the GXL
Cloud System
- Steven Lambert
Senior Program Manager
31. Société Topographie Informatique selected PCI’s GXL solution to process its high resolution UltraCam
imagery quickly and efficiently – turnaround time is a key aspect of their business. In a highly competitive
aerial market, STi has been able to differentiate itself from competitors - and obtain more projects.
OTHER RESULTS
Quick integration of the GXL system into STi’s
production chain thanks to dedicated, on site
training by PCI Geomatics experts
“
Ability to correct thousands of UltraCam images
per day “The speed of the GXL-
Expansion into new markets thanks to cost
Aerial system is
savings impressive - by using the
GXL system, we are able
to save time and money
– allowing us to expand
our business”
- Georges Munceanu
President
“The speed of the GXL-Aerial system is impressive, and was a key determining factor in our purchase decision. We have operationally integrated the GXL into our production chain, and are currently processing images captured by our UltraCamXp camera. The integration of the GXL was very quick, thanks to the technical support provided by PCI Geomatics. We have been able to get up to speed and fully operational in order to process very large projects that had extremely rapid completion time requirements. By using the GXL system, we are able to save time and money – allowing us to expand our business.