Esri ArcGIS Desktop Professional Certification Study Guide. Mike Flanagan. Читать онлайн. Newlib. NEWLIB.NET

Автор: Mike Flanagan
Издательство: Ingram
Серия:
Жанр произведения: Программы
Год издания: 0
isbn: 9781589485365
Скачать книгу
these web courses to get more hands-on experience:

        Managing Raster Data Using ArcGIS

        Managing Lidar Data Using Mosaic Datasets

        Working with NetCDF Data in ArcGIS Pro

      Skills check-in

      Now that you have explored these concepts, it is time to check in! This is not an exhaustive list of topics that are covered on the exam, but it references the types of tasks a qualified candidate should be able to perform. If there is anything you cannot confidently do, review those concepts until you can.

      I can:

       Identify data formats for surfaces, or multispectral applications, simple feature, multidimension, LAS data, external formats (CAD).

       Compare a variety of geodatabase or external storage types (for example, elevation raster, LAS datasets, terrain datasets).

       Create a mosaic dataset from raster data or LAS data.

       Create derived raster products.

       Create and maintain attachments.

      ArcGIS supports the creation of complex datasets that can be used to perform network analysis on both transportation and utility networks. Networks can be used to help plan routes for a delivery fleet or to calculate vehicle drive times while including impedance factors such as street direction and traffic volume. This section describes two ways to use networks in ArcGIS. This skill consists of two parts: (1) network datasets and (2) geometric networks.

      Network datasets

      Network datasets are used to model networks that allow bidirectional travel or facilitate travel by agents who can make decisions about how to travel across the network (such as a delivery driver in a transportation network). After a transportation network has been modeled, it can be used to optimize route planning and streamline business processes. For example, a parcel shipping company might use a network dataset and tools in the ArcGIS Network Analyst extension to calculate the least-cost path (where least-cost is defined as shortest travel time) from a warehouse to a customer’s home.

      Network datasets are made up of point and line features, known as network elements, that define the physical characteristics of the network. The topological relationships of these features are enforced by logic that is built in to the network dataset. These network elements establish connectivity and control navigation over the network. When you create a network dataset, you identify line and point features that will create your network’s basic structure as edges and junctions. Network datasets may also include turns, which are used to model restrictions in the network. The elements are then used to model and describe connectivity. Connectivity tells the network how your edges and junctions are formed and describes which network sources interconnect. In a network dataset, the connectivity model is discovered on demand and is refreshed with a network build. Connectivity is important for accurate analysis results and can be used to help you model multimodal transportation systems in areas with a complex transportation infrastructure. After you have modeled connectivity, you can use network attributes to give ArcGIS additional information about the network dataset, leading to more accurate analysis results. For example, a cost attribute can be used to measure and model factors that can impede travel, such as travel time or traffic volume at a given time of the day.

      Reminder

      ArcGIS Pro 1.4 provides limited functionality for creating and working with network datasets. Please refer to the ArcGIS Pro Help links for a detailed discussion of the current state of network datasets and network analysis in ArcGIS Pro.

      Prepare

      These topics in the documentation provide details about network datasets.

      Gain a thorough understanding of these ArcGIS Pro Help topics:

        Help > Analysis and geoprocessing > Network Analyst > Get started > What is the ArcGIS Network Analyst extension?

        Help > Analysis and geoprocessing > Network Analyst > Network datasets > What is a network dataset?

        Help > Analysis and geoprocessing > Network Analyst > Network datasets > Network dataset concepts > Network elements

      Gain a thorough understanding of these ArcMap Help topics:

        Extensions > Network Analyst > What is the ArcGIS Network Analyst extension?

        Extensions > Network Analyst > Essential ArcGIS Network Analyst extension vocabulary

       Extensions > Network Analyst > Network datasets >What is a network dataset?Designing the network datasetNetwork elementsUnderstanding connectivityUnderstanding network attributes

        Extensions > Network Analyst > Network datasets > Building and editing the network dataset > Creating a network dataset

       Extensions > Network Analyst > Network datasets > Building and editing the network dataset > Editing network datasets >Ways to edit network datasetsAdding network sourcesModifying connectivity

      Geometric networks

      Geometric networks give ArcMap users the ability to model directed-flow networks, where each edge has a fixed direction of flow (such as the flow of electricity through a utility network). A geometric network consists of junctions, such as a valve, and simple or complex edges. These features are sourced by feature classes in a feature dataset in a geodatabase. Simple edges allow a resource to enter through only one end of the edge and to exit through the other. An example of a simple edge is a water lateral. Complex edges allow resources to enter and exit through the ends and through additional junctions along their length. An example of a complex edge is a water main