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List of Map Service Software


I am curious as to what GIS server software is out there. I have used a few different ones and am building a list of them. If you know of any others please mention it below because I would like to check it them out. I have listed the software that I am already aware of below.

GIS Server Software:
Name || Source || License
MapServer || Open || MIT-style license
GeoServer || Open || GNU GENERAL PUBLIC LICENSE
TileStache || Open || BSD License
TileCache || Open || BSD license
Mapnik || Open || LGPL (Lesser General Public Licence)
ArcGIS for Server || Closed || ESRI
A Custom Server Built on GeoTools || Open || LGPL
MapZoom || Open || ???
GLG Map Server || Closed || ???
Deegree || Open || LGPL
Geomajas || Open || AGPL
Mapguide Open Source || Open ||LGPL
GeoMedia Map Publisher || Closed || Intergraph
MapViewer || Closed || Oracle
Mapbender || Open || GNU GPL and Simplified BSD license
Hopefully that list helps others who are also looking for options. Also if I have mistakenly added one please let me know. I haven't tried most of packages on the list so if you have used any of them please let me know if you would recommend it and how your experience with the software was.

Question 1: Do you know of any other GIS Map Service Software?

Question 2: How was your experience with a GIS Map Service Software package?


QGIS Mapserver || Open || GPL


Manifold IMS || Closed || Manifold

Sorry, I don't have any experience with this one. Just trying to help build a complete list.


One place to look is on the OGC web site - http://www.opengeospatial.org/resource/products/byspec and then select which version of the WMS spec you are interested in. I don't know how reliable the list is as it filled in by the developers of the software but I'd expect that if you went to the effort of writing a WMS then you'd register it there.

The list is divided into 2 categories, implementations and compliant products. The compliant products have been through OGC certification testing to ensure compliance. This is indicated by a green check mark and a certification test date.


FME Server || Closed || Safe Software


Another GIS software is Mapline (https://mapline.com). If you like fast geocoding, try using their mapping service.


MapSurfer.NET || Closed || Freeware


GIS mapping Companies

Everise is one of the most famous high-tech enterprises in environmental and meteorological monitoring area. Everise is specialized on manufacturing, supplying, maintaining service, integrating system and engineering for atmospheric environmental .

High Altitude Atmospheric Lidar Monitoring Vehicle

Temperature Lidar. Combined with camera system and the aerosol lidar system, the 3D scanning laser lidar could display horizontal, vertical aerosols and section scanning images on the GIS map, which could monitor .

Everise is one of the most famous high-tech enterprises in environmental and meteorological monitoring area. Everise is specialized on manufacturing, supplying, maintaining service, integrating system and engineering for atmospheric environmental .

High Altitude Atmospheric Lidar Monitoring Vehicle


Bertin Instruments

Bertin Instruments is a brand of the CNIM Group, dedicated to innovative measurement and sampling solutions for key worldwide markets such as: Lab Equipment (sample preparation, air sampler). Nuclear Instrumentation (radon professional monitoring, .

Bertin Instruments is a brand of the CNIM Group, dedicated to innovative measurement and sampling solutions for key worldwide markets such as: Lab Equipment (sample preparation, air sampler). Nuclear Instrumentation (radon professional monitoring, .


List of Map Service Software - Geographic Information Systems

The geographical data needed for a comprehensive view of the electric distribution system come from several sources within the utility or originate from other organizations.

With the CYME Geographic Overlay module, digitized maps can be displayed as layers along with the network model. This allows the power engineer to efficiently prepare planning and maintenance projects that take into account the relevant infrastructure information.

The CYME Geographic Overlay allows the engineer to view geographic information useful to the utility as multiple layers underneath the representation of the distribution network. This includes the network connection information, assets, resources, etc. but also land register, rights of ways, hydrography, topography, land cover, land use, population density, etc.

The module allows the import and display of several maps of different formats (raster or vector) along with the capability to enable for viewing and disabling any layer or theme. They can be placed in any order, with the CYME distribution system model on top.

The module imports map files as data layers. The formats supported are:

The module allows the automatic display of the geographic background whenever the network model is loaded or a study opened.

The module can be used in conjunction with the CYME Online Maps Service to display offline and online maps simultaneously allowing to the user to locate equipment and devices on the one-line diagram using street addresses, X/Y Coordinates or GPS coordinates.

The functionality of both components is accessed through a comprehensive background map control tab in the CYME software.


Soil Data Access Web Service

The current Soil Data Access Web Map Service (WMS) supports Open Geospatial Consortium (OGC) WMS version 1.1.1 requests while the current Soil Data Access Web Feature Services (WFS) support OGC WFS version 1.1.0 (GML2/GML3) requests. GML is an acronym for Geography Markup Language, and is the XML grammar defined by the Open Geospatial Consortium (OGC) to express geographical features. GML serves as a modeling language for geographic systems as well as an open interchange format for geographic transactions on the Internet. EPSG is an acronym used throughout the Soil Data Access web pages. It stands for European Petroleum Survey Group. They publish a database of coordinate system information plus some very good related documents on map projections and datums.

The purpose of this page is to provide you with general information about.

The following Soil Data Access web services are available:

This is an in-browser endpoint for Soil Access Query services. This endpoint.


All Haag Services

What can Haag do for you? We offer more than just expert forensic engineering services or damage assessment classes. Below is a list of all Haag's services, divided by business unit. For general inquires about any of our services, call 214-614-6500 or email us at webcontact @ haagglobal.com .

Haag Engineering Services:

Haag's professional, expert engineers are licensed and experienced in a diversity of key disciplines.

  • Haag Engineers will determine the cause failure and extent of damage to a wide range of energy and oil & gas-related equipment.
  • Haag Engineers are experts at determining the cause and extent of damage related to aerial lifts, cranes and rigging, and other heavy equipment.
  • Haag Engineers are experienced forensic geotechnical investigators, who conduct geologic and geophysical studies, inspections, and testing services nationwide.
  • Haag Engineers analyze damage caused by catastrophic events and weather phenomena, establish cause and scope, and work to reduce business interruption
  • Haag Mechanical Engineers determine causes of failures and damage to mechanical equipment and our staff metallurgist will analyze failed components.
  • Haag Electrical Engineers determine causes for failures and damage to a variety of electrical equipment and distribution systems, and detail the scope of damage and costs to repair or rebuild.
  • Haag Engineers are experts at examining failure debris, conducting structural analysis, and performing on-site inspections.
  • Haag Engineers are the industry experts at evaluating damage to residential, commerical and industrial roofing.
  • Haag Engineers are available to provide expert witness and litigation consulting services throughout the Unites States and internationally.
Haag Construction Consulting Services:

CONSTRUCTION CONSULTING SERVICES

Haag experts work closely with architects, engineers, and company representatives to gather and clearly present the facts. Their assessment encompasses immediate, acute matters, such as whether a structure requires emergency services to avert further damage, as well as the minute details to create and budget a comprehensive scope of repairs.

Once the work begins, Haag can remain on hand to oversee your restoration process, drawing on our wealth of experience in recovery projects resulting from fire, water, wind, explosion, earth movement and other forms of damage. From the high priority emergency repairs, down to the carpet and wall treatments, Haag consultants hold your contractors strictly to the script.

As your clerk of works, Haag Construction Consulting can provide daily project oversight of your entire recovery process. Starting with the initial estimates and bid process, through contractor selection, job tracking and finish-out, we can manage your project for minimal business interruption and maximum satisfaction.

If there is a dispute or litigation, Haag can provide the photo documentation, critical damage analysis and accounting to accurately present the facts. But that is just the beginning. Haag experts are renowned not only for the accuracy of their information but also for the compelling manner in which they are able to communicate it.

Haag Construction Consultants assess electronic/manufacturing equipment and electrical switchgear after catastrophic events. Our assessment will provide accurate technical restoration prices, repair quotes and replacement costs for equipment. This information will help create a budget for repairs or determine if repair is cost effective. We provide the best approach to recovering technical equipment after a catastrophic event.

Haag Technical Services:

LASER SCANNING & 3D DOCUMENTATION

3D Laser Scanning (3DLS) is a technology that uses a laser light to digitally capture an objects exact size and shape, shown in a 3-dimensional representation. The information produced from the laser scanner is known as &ldquopoint cloud&rdquo data. The 3D model or shape of the object is made up of millions of points documenting the entire surface of the object. On average, a scan records one million points every second. Point clouds are highly accurate, precise and measureable points of the surface of the object. Laser scanning is safe, fast, non-destructive and does not interfere with any other work or activities going on near the object. Point cloud data can be imported into multiple software platforms for further analysis and modeling and is viewable without the need for special software.

GEOGRAPHIC INFORMATION SYSTEMS

Geographic Information System (GIS) is a powerful tool that allows companies to combine large amounts of data from different sources, order them into layers, and visualize the relationships between the datasets. Imagine looking at a map of a newly planned community and being able to overlay roads and traffic patterns, demographic information, spending habits, water sources and areas of drainage problems, topography, flood zones, weather contours (hail/wind/surge), voting habits, and a whole host of information that allows users to make informed decisions based on reliable data.

UNMANNED AIRCRAFT SYSTEMS

Haag Research & Testing:
  • Haag desaturates roofing samples and then examines extracted reinforcements microscopically, if needed, to find fractures or strained regions caused by an impact.
  • Haag's Wind Simulator, capable of generating wind speeds of up to 170 mph, tests the response and resistance of products and materials to wind forces.
  • Haag analyzes single-ply roofing samples (PVC, TPO, EPDM, and others) with a microscope and using high intensity light to find fractures.
  • Using our IBL-8 and IBL-9, Haag launches small missiles (steel balls) and large missiles (2x4s, ice balls) into building materials to simulate airborne debris impacts. We impact exterior doors, windows, skylights, masonry, siding, etc., to test resistance to airborne debris during high wind events.
  • Water column leak testing helps us determine the response and resistance of materials to water intrusion.

Our testing procedures also include Vacuum Uplift Testing, Steel Billet and Rock Impact Tests, Cabinet Qualification Tests, Material Flammability Tests, and many others.


To construct online GIS application, constructing servers that have GIS service abilities is the priority. There might be the processes like finding the machine room, installing equipment, deploying system, purchasing and deploying GIS software and fixing the network, which will cost a lot and takes long time. Except the above method, users also can use universal public cloud services, directly rent the cloud mainframe, however, just having cloud mainframe is not sufficient, also needs to purchase and deploy GIS environment. It takes weeks to construct the GIS servers.

From the above comparisons, we can see the GIS application development based on SuperMap Online costs less and the preparation time has decreased from months, weeks to hours and minutes, realizing quick construction of GIS applications.

1. GIS cloud mainframe: hardware + software + configuration + deployment

    • Integrated GIS server software and other extensible modules
    • Rent mode, pay what you need, extend the configuration with needs
    • Remote management, no need to worry about maintenance, cloud mainframe monitoring and alarming.

    2. Data service: GIS data distribution + publishing + configuration

      • No need to worry about environment of hardware and software, one-button to publish data as REST service
      • Cloud management, any-time synchronization
      • Online map outputting, massive querying, any-time view and manage data
      • Address matching.
        • Based on hosted data, multiple based maps are supported
        • No need to purchase professional tools, easy to get the colorful and professional effect.

        4. API: Personalized customized tool

        Provides development tools like Web API, JavaScript API and iConnector, etc.

        How to use SuperMap Online?

        Step 1: Upload GIS data, publish data as map service

        Step 2: Based on map service to create a map online (Optional)

        Step 3: Secondary development based on online API, embedding map into webpage.


        As digital maps become more prevalent, they have also grown more complex and detailed. The geographic information systems (GIS) technician uses geographic data in a wide range of applications, such as creating geographic information systems and databases, reviewing existing cartographic designs for accuracy and detail, and creating specialized map systems from source documents using cartography and design software.

        Geographic information systems technicians must possess significant knowledge …Read more


        Step Three

        Install & Authorize the Software

        ArcGIS only works in Windows 7 and up. It will only run on a Mac if you are dual booting Windows.

        The software cannot be installed on a computer that has a previous version of ArcGIS Desktop or ArcGIS Server installed if necessary, uninstall previous versions of ArcGIS Desktop or Server. It's OK if the computer has ArcGIS Explorer installed.

        (off campus or personal computers must use the Cisco Anyconnect VPN client available in AU Install)


        Global Software Geographic Information Systems Market Analysis By Growth and Forecast 2025

        This study covers following key players
        The key players covered in this study
        Pasco Corporation
        Ubisense Group
        Beijing SuperMap Software
        Hexagon
        Schneider Electric
        Environmental Systems Research Institute
        Bentley Systems
        Autodesk
        Pitney Bowes
        MacDonald, Dettwiler and Associates

        The research report encourages the readers to comprehend the importance of quality, shortcomings if any and deep investigation for every member independently by giving the global data of great importance about the market. Consequently, the research report presents the organization profiles and deals investigation of the considerable number of vendors which can assist the customers with taking better choice of the products and services. This market investigation permits industry producers with future market patterns according to various aspects and upcoming other markets.

        Additionally, the Report offers a top to bottom research based on the market size, income, deals research and key drivers. Study reports gives the data about the innovative progression, new item dispatches, new players and late advancements in the Global Software Geographic Information Systems showcase.

        Besides, study offers the development estimation of the market based on figuring by different divisions and segments and past and current information of the market. Moreover, the market study also provides in depth analysis of the regions, which is one of the major aspects for the growth of the market.

        Market segment by Type
        Market segment by Type, the product can be split into
        Desktop
        Mobile
        Cloud-based
        Other

        Market segment by Application
        Market segment by Application, split into
        Disaster Management
        Land Information
        Map Viewing
        Infrastructure Management
        Business Information
        Mineral Exploration
        Military Defence
        Other

        Besides, study report presents a far reaching learn about the market based on different fragments, for example, item type, application, key organizations and key areas, top end clients and others. The research report presents evaluation of the development at different phases and different qualities of the Global Software Geographic Information Systems Market based on key geological regions and nations.

        The study report gives the examination about the significant reasons or drivers that are liable for the development the Software Geographic Information Systems advertise. Moreover, report gives some key reasons which can hamper the development of the market during the estimate time frame. The end clients of the Global Software Geographic Information Systems Market can be sorted based on size of the endeavour. Report presents the open doors for the players of the Global Software Geographic Information Systems Market. It additionally offers plans of action which can be taken and market conjectures that would be required.

        Table of Content Table of Contents
        Chapter One Report Overview
        1.1 Study Scope
        1.2 Key Market Segments
        1.3 Players Covered
        1.4 Market Analysis by Type
        1.4.1 Global Software Geographic Information Systems Market Size Growth Rate by Type (2013-2025)
        1.4.2 Desktop
        1.4.3 Mobile
        1.4.4 Cloud-based
        1.4.5 Other
        1.5 Market by Application
        1.5.1 Global Software Geographic Information Systems Market Share by Application (2013-2025)
        1.5.2 Disaster Management
        1.5.3 Land Information
        1.5.4 Map Viewing
        1.5.5 Infrastructure Management
        1.5.6 Business Information
        1.5.7 Mineral Exploration
        1.5.8 Military Defence
        1.5.9 Other
        1.6 Study Objectives
        1.7 Years Considered
        Chapter Two Global Growth Trends
        2.1 Software Geographic Information Systems Market Size
        2.2 Software Geographic Information Systems Growth Trends by Regions
        2.2.1 Software Geographic Information Systems Market Size by Regions (2013-2025)
        2.2.2 Software Geographic Information Systems Market Share by Regions (2013-2018)
        2.3 Industry Trends
        2.3.1 Market Top Trends
        2.3.2 Market Drivers
        2.3.3 Market Opportunities
        Chapter Three Market Share by Key Players
        3.1 Software Geographic Information Systems Market Size by Manufacturers
        3.1.1 Global Software Geographic Information Systems Revenue by Manufacturers (2013-2018)
        3.1.2 Global Software Geographic Information Systems Revenue Market Share by Manufacturers (2013-2018)
        3.1.3 Global Software Geographic Information Systems Market Concentration Ratio (CRChapter Five and HHI)
        3.2 Software Geographic Information Systems Key Players Head office and Area Served
        3.3 Key Players Software Geographic Information Systems Product/Solution/Service
        3.4 Date of Enter into Software Geographic Information Systems Market
        3.5 Mergers Acquisitions, Expansion Plans
        Chapter Four Breakdown Data by Type and Application
        4.1 Global Software Geographic Information Systems Market Size by Type (2013-2018)
        4.2 Global Software Geographic Information Systems Market Size by Application (2013-2018)
        Chapter Five United States
        5.1 United States Software Geographic Information Systems Market Size (2013-2018)
        5.2 Software Geographic Information Systems Key Players in United States
        5.3 United States Software Geographic Information Systems Market Size by Type
        5.4 United States Software Geographic Information Systems Market Size by Application
        Chapter Six Europe
        6.1 Europe Software Geographic Information Systems Market Size (2013-2018)
        6.2 Software Geographic Information Systems Key Players in Europe
        6.3 Europe Software Geographic Information Systems Market Size by Type
        6.4 Europe Software Geographic Information Systems Market Size by Application
        Chapter Seven China
        7.1 China Software Geographic Information Systems Market Size (2013-2018)
        7.2 Software Geographic Information Systems Key Players in China
        7.3 China Software Geographic Information Systems Market Size by Type
        7.4 China Software Geographic Information Systems Market Size by Application
        Chapter Eight Japan
        8.1 Japan Software Geographic Information Systems Market Size (2013-2018)
        8.2 Software Geographic Information Systems Key Players in Japan
        8.3 Japan Software Geographic Information Systems Market Size by Type
        8.4 Japan Software Geographic Information Systems Market Size by Application
        Chapter Nine Southeast Asia
        9.1 Southeast Asia Software Geographic Information Systems Market Size (2013-2018)
        9.2 Software Geographic Information Systems Key Players in Southeast Asia
        9.3 Southeast Asia Software Geographic Information Systems Market Size by Type
        9.4 Southeast Asia Software Geographic Information Systems Market Size by Application
        Chapter Ten India
        10.1 India Software Geographic Information Systems Market Size (2013-2018)
        10.2 Software Geographic Information Systems Key Players in India
        10.3 India Software Geographic Information Systems Market Size by Type
        10.4 India Software Geographic Information Systems Market Size by Application
        Chapter Eleven Central South America
        11.1 Central South America Software Geographic Information Systems Market Size (2013-2018)
        11.2 Software Geographic Information Systems Key Players in Central South America
        11.3 Central South America Software Geographic Information Systems Market Size by Type
        11.4 Central South America Software Geographic Information Systems Market Size by Application
        Chapter Twelve International Players Profiles
        12.1 Pasco Corporation
        12.1.1 Pasco Corporation Company Details
        12.1.2 Company Description and Business Overview
        12.1.3 Software Geographic Information Systems Introduction
        12.1.4 Pasco Corporation Revenue in Software Geographic Information Systems Business (2013-2018)
        12.1.5 Pasco Corporation Recent Development
        12.2 Ubisense Group
        12.2.1 Ubisense Group Company Details
        12.2.2 Company Description and Business Overview
        12.2.3 Software Geographic Information Systems Introduction
        12.2.4 Ubisense Group Revenue in Software Geographic Information Systems Business (2013-2018)
        12.2.5 Ubisense Group Recent Development
        12.3 Beijing SuperMap Software
        12.3.1 Beijing SuperMap Software Company Details
        12.3.2 Company Description and Business Overview
        12.3.3 Software Geographic Information Systems Introduction
        12.3.4 Beijing SuperMap Software Revenue in Software Geographic Information Systems Business (2013-2018)
        12.3.5 Beijing SuperMap Software Recent Development
        12.4 Hexagon
        12.4.1 Hexagon Company Details
        12.4.2 Company Description and Business Overview
        12.4.3 Software Geographic Information Systems Introduction
        12.4.4 Hexagon Revenue in Software Geographic Information Systems Business (2013-2018)
        12.4.5 Hexagon Recent Development
        12.5 Schneider Electric
        12.5.1 Schneider Electric Company Details
        12.5.2 Company Description and Business Overview
        12.5.3 Software Geographic Information Systems Introduction
        12.5.4 Schneider Electric Revenue in Software Geographic Information Systems Business (2013-2018)
        12.5.5 Schneider Electric Recent Development
        12.6 Environmental Systems Research Institute
        12.6.1 Environmental Systems Research Institute Company Details
        12.6.2 Company Description and Business Overview
        12.6.3 Software Geographic Information Systems Introduction
        12.6.4 Environmental Systems Research Institute Revenue in Software Geographic Information Systems Business (2013-2018)
        12.6.5 Environmental Systems Research Institute Recent Development
        12.7 Bentley Systems
        12.7.1 Bentley Systems Company Details
        12.7.2 Company Description and Business Overview
        12.7.3 Software Geographic Information Systems Introduction
        12.7.4 Bentley Systems Revenue in Software Geographic Information Systems Business (2013-2018)
        12.7.5 Bentley Systems Recent Development
        12.8 Autodesk
        12.8.1 Autodesk Company Details
        12.8.2 Company Description and Business Overview
        12.8.3 Software Geographic Information Systems Introduction
        12.8.4 Autodesk Revenue in Software Geographic Information Systems Business (2013-2018)
        12.8.5 Autodesk Recent Development
        12.9 Pitney Bowes
        12.9.1 Pitney Bowes Company Details
        12.9.2 Company Description and Business Overview
        12.9.3 Software Geographic Information Systems Introduction
        12.9.4 Pitney Bowes Revenue in Software Geographic Information Systems Business (2013-2018)
        12.9.5 Pitney Bowes Recent Development
        12.10 MacDonald, Dettwiler and Associates
        12.10.1 MacDonald, Dettwiler and Associates Company Details
        12.10.2 Company Description and Business Overview
        12.10.3 Software Geographic Information Systems Introduction
        12.10.4 MacDonald, Dettwiler and Associates Revenue in Software Geographic Information Systems Business (2013-2018)
        12.10.5 MacDonald, Dettwiler and Associates Recent Development
        Chapter Thirteen Market Forecast 2018-2025
        13.1 Market Size Forecast by Regions
        13.2 United States
        13.3 Europe
        13.4 China
        13.5 Japan
        13.6 Southeast Asia
        13.7 India
        13.8 Central South America
        13.9 Market Size Forecast by Product (2018-2025)
        13.10 Market Size Forecast by Application (2018-2025)
        Chapter Fourteen Analysts Viewpoints/Conclusions
        Chapter Fifteen Appendix
        15.1 Research Methodology
        15.1.1 Methodology/Research Approach
        15.1.1.1 Research Programs/Design
        15.1.1.2 Market Size Estimation
        12.1.1.3 Market Breakdown and Data Triangulation
        15.1.2 Data Source
        15.1.2.1 Secondary Sources
        15.1.2.2 Primary Sources
        15.2 Disclaimer
        15.3 Author Details