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Published byCharlotte Blake Modified over 9 years ago
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Internet GIS
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A vast network connecting computers throughout the world Computers on the Internet are physically connected Computers on the Internet use a common language (protocol) to communicate The Internet
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Intranet demand > Internet demand Two approaches: –Static (maps are stored as static images) –Dynamic (access to dynamic GIS databases) Mapping on the Web
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Potential of Web GIS WebGIS holds the potential to make distributed geographic information (DGI) available to a very large worldwide audience. Internet users will be able to access GIS applications from their browsers without purchasing proprietary GIS software. WebGIS will make it possible to add GIS functionality to a wide range of network-based applications in business, government, and education. One of the important areas of innovation involves "pay- for-use" mapping and GIS services – web services
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Strategies for Web GIS Server-side strategies allow users (clients) to submit requests for data and analysis to a Web server. The server processes the requests and returns data or a solution to the remote client. Client-side strategies allow the users to perform some data manipulation and analysis locally on their own machines. Server and client processes can be combined in hybrid strategies that optimize performance and meet special user needs.
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Server Side Strategies Little processing power is required of the client (a "dumb" terminal in the traditional model), only the ability to submit requests and display responses.
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Map Frame ArcIMS MS IIS Internet TCP/IP Web Browser Web Server Map Server GIS Database
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Advantages to Server Side If a high-performance server is used, users can access large and complex datasets that would be difficult to transfer across the Internet and process locally on the client. If a high-performance server is used, complex GIS analytical routines can be run quickly even by clients who lack access to sophisticated hardware. More control can be exerted over what the user is permitted to do with the data, perhaps also insuring that the data is used correctly.
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Disadvantages to Server Side Every request--no matter how small--must be returned to the server and processed. Responses must then be returned to the client across the Internet. Performance will be affected by the bandwidth and network traffic on the Internet between the server and client particularly when responses involve transferring large files. Applications do not take advantage of the processing power of the user's own "client" computer, which is used merely to submit a request and display the response.
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Client Side Strategies Client-side applications attempt to shift some of the work of processing requests to the user's computer, sometimes referred to as a thick client. Instead of forcing the server to do most of the work, some of the GIS capabilities are downloaded to the client, or reside there, and data is processed locally.
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Client Side Advantages Applications take advantage of the processing power of the user's own computer. The user can be given greater control of the data analysis process. Once the server has delivered its response, the user can work with the data without having to send and receive messages across the Internet. Disadvantages –The response from the server may involve transferring large amounts of data as well as applets, causing delays. Large and complex datasets may be hard to process on the client if it is not very powerful. Complex GIS analytical routines may run more slowly on the client if it is not very powerful. Users may not have the training needed to employ the data and analysis functions properly.
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The Use of Applets In this variation, GIS capability is provided in the form of small programs, or applets, that can run on the client. These applets are delivered to the client "on demand," that is as they are needed by the user. Requests and responses do not have to be passed back and forth across the Internet.
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Another use of Applets Transfer GIS applets to the client computer on a permanent or semi- permanent basis so that they do not have to be transferred each time they are needed. Download and permanently install a "plug-in" program on the client's browser. Build browser capabilities into existing GIS software that runs on the client
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Custom HTML
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Custom Java
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ESRI ArcIMS – Publish Maps, Data, and Metadata on the Web ArcIMS is the solution for delivering dynamic maps and GIS data and services via the Web. It provides a highly scalable framework for GIS Web publishing that meets the needs of corporate Intranets and demands of worldwide Internet access. ArcIMS services can be used by a wide range of clients including custom Web applications, the ArcGIS Desktop, and mobile and wireless devices. Using ArcIMS, city and local governments, businesses, and other organizations worldwide publish, discover, and share geospatial information.
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With ArcIMS you can Deliver dynamic maps and data via the Web. Create easy-to-use, task-focused applications that use geographic content. Develop custom applications using industry-standard Web development environments. Share data with others to accomplish tasks. Implement GIS portals.
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ArcIMS Application Example 1
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ArcIMS Application Example 2
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ArcGIS Server: A New ESRI Internet GIS Solution ArcGIS Server software gives you the ability to create, manage, and distribute GIS services over the Web to support desktop, mobile and Web mapping applications.
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To create GIS services, you use ArcGIS Desktop to author geographic content, such as maps and GIS tools, and then publish that content using ArcGIS Server so that it can be used anywhere in your enterprise and on the Web. ArcGIS Server simplifies access to GIS services for GIS professionals, mobile workers, as well as knowledge workers without any GIS experience. With ArcGIS Server, you stay in control of your content through centralized management of spatial data, including imagery. In addition, ArcGIS Server provides you with a scalable GIS server platform that can be deployed on a single machine to support small workgroups, or it can distributed across multiple servers for supporting enterprise applications. You can also deploy ArcGIS Server on Cloud infrastructure.
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Cloud computing describes computation, software, data access, and storage services that do not require end-user knowledge of the physical location and configuration of the system that delivers the services. (The term "cloud" is used as a metaphor for the Internet, based on the cloud drawing used in the past to represent the telephone network. ) Cloud GIS
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Cloud GIS offerings can range from data storage to end-user Web applications to other focused computing services. ESRI considers cloud computing and technology important in the development and vision of the ArcGIS platform. ArcGIS Server is a viable candidate in an on-demand architecture. Cached map tiles can be uploaded to cloud computing vendors, such as Amazon Simple Storage Service (S3), to create a data center in the cloud.
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Internet GIS: More Examples Santa Rosa County GIS http://maps.roktech.net/santarosa/zoning/ Or http://www.srcpa.org/http://www.srcpa.org/ MapQuest: http://www.mapquest.com
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