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Long description layer in legend of ArcGIS for Desktop?


I work with arcview 10.3 and i have layer with long description (green),hence the legend spread throw out the map:

I have to use a singel symbol for the layer

and not use the unique value as describe in How to allow for multiple lines in legend?

I wonder if there a way to shorten the description line by sliding the line into another line under ?


If you click

CTRL+ Enter

a new line is entered and reflected within the legend.


I just tested this from the Help page entitled Working with legends where it says:

You can enable text wrapping on labels and descriptions by checking the boxes Wrap labels and Wrap descriptions, respectively, and setting maximum width values.

If there are any issues doing that, then the section on Converting map elements to graphics at the same page says:

You might want to convert a map element, such as a legend, to graphics if you want more precise control over each item that composes the map element.

Fortunately, the first technique above seems to work fine because I did as below and saw the Description of a layer with a Single Symbol wrapped as expected.


Long description layer in legend of ArcGIS for Desktop? - Geographic Information Systems

Esri ( / ˈ ɛ z r iː / Environmental Systems Research Institute) is an international supplier of geographic information system (GIS) software, web GIS and geodatabase management applications. The company is headquartered in Redlands, California.

The company was founded as the Environmental Systems Research Institute in 1969 as a land-use consulting firm. Esri products (particularly ArcGIS Desktop) have 40.7% of the global market share. [5] In 2014, Esri had approximately a 43 percent share of the GIS software market worldwide, more than any other vendor. [6]

The company has 10 regional offices in the U.S. and a network of more than 80 international distributors, [7] with about a million users in 200 countries. The firm has 3,800 employees globally, and is privately held by its founders. In 2006, revenues were about $660 million. [8] In a 2016 Investor's Business Daily article, Esri's annual revenues were indicated to be $1.1 Billion, from 300,000 customers ($4000/customer/year). [9]

The company hosts an annual International User's Conference, which was first held on the Redlands campus in 1981 with 16 attendees. The User's Conference has been held in San Diego at the San Diego Convention Center since 1997. An estimated 18,000 users from 136 countries attended in 2017. [10]


What can you do with KML using ArcGIS Server?

ArcGIS Server allows you to share your maps and data as KML in several ways:

  • Map and image services expose a KML network link through representational state transfer (REST).
  • You can create your own KML network link using Services Directory or Manager.
  • When you query map layers or perform a geoprocessing or geocoding operation through REST, you can get the results as KML.

In all these cases, the KML is dynamically generated, meaning that users who view the KML will always see the latest maps and data from your server. If you just want to generate static KML documents that you can e-mail or place on a file server, you can use the Map To KML and Layer To KML tools from ArcGIS Desktop.


Contents

ArcMap users can create and manipulate data sets to include a variety of information. For example, the maps produced in ArcMap generally include features such as north arrows, scale bars, titles, legends, neat lines, etc. The software package includes a style-set of these features. As well as the ability to upload numerous other reference styles to apply to any mapping function.

The ArcGIS suite is available at four license levels: Basic, Standard, or Advanced (formerly ArcView, ArcEditor, or ArcInfo), and Pro. Each step up in the license provides the user with more extensions that allow a variety of querying to be performed on a data set. Pro is the highest level of licensing, and allows the user to use such extensions as 3D Analyst, Spatial Analyst, and the Geostatistical Analyst as well as numerous new functionalities at each new release.

The layout of ArcMap may seem overwhelming at first glance, but when a second look is taken what is seen is two distinct sections of ArcMap. The data frame where information is spatial and the table of contents where data is aligned in terms of importance symbology is changed.

Data frame Edit

The section of ArcMap where data is spatially applied from the table of contents. The data comes in feature, rasters, and layers. While working in the spatial sector of the data, ground units (miles, kilometers, feet, meters, etc. ) are used and represented in the coordinate system defined. This is where the views can be changed between Layout and Data View. The data will be ordered according to the order in the Table of Contents.

The user can create multiple data frames within one table of contents. The data frame while in that view will only view a single data frame at a time.

Table of Contents Edit

The table of contents is the way that ArcMap represents what data is available to put into the data frame and how each layer is symbolized. The normal way to organize the layers is from top to bottom. With the base map elements such as a street map or DEM listed at the bottom the thematic map layers can be placed above to convey the message the map is being designed for. [3]

Other forms to view the table of contents include listing layers by source visibility and selection. The most basic form is to stay with drawing order as described above.

Views are put into place to allow a user to choose between either data view or the layout view. To choose between these views there are two buttons in the bottom left of the data frame to choose from. Navigating through the menus is another option, View > Layout View or View > Data View. [4]

Layout Edit

The purpose of layout view is for the final design of a map. This is the view where the placement of the essential map elements are inserted, such as the north arrow, scale bar, etc. While in this view the user also has control of the data frame just as they would in the Data View, but is mainly concerned with the page space and formatting of spacing. [5] If multiple Data Frames are used they can be combined while in the layout view to fit onto one single page.

Data View Edit

This is the geographic view of the data a user imports. The user can explore, display, and query data and edit files if the correct extensions are owned. The bulk of geographic processing will happen while in this view, such as symbology, import of data, editing, coordinate system definition. Only one Data Frame can be viewed at a time while in this view.

ArcMap is run using primarily Shape Files and in more recent versions Geodatabases can be used to store larger sets of data. These file formats are what are uploaded into the program to view spatial data. Users can also upload .dbf or database files to link important attribute information to spatial data. Comma separated values (.csv) can be used, as long as they are converted to a .dbf before upload into the program.

When a map is saved a new file extension is created (.mxd). This file does not save the layers or spatial data with it, only the relative pathnames. What this means is if the data used in the map is not in the same location as the previous time it was opened there will be an error. This assists with keeping the file small and reduces the amount of redundancy in data management.

There are three main printing techniques and one multipage technique. The multipage technique can be found in a help page on ESRIs website.

  1. In layout view after completing all desired formatting saving the layout view as a .pdf then printing form there will reduce the amount of possible miscommunication within the computer. Keeping what the user did exactly what they get when they print.
  2. While in data view for the user to zoom to their desired extent then go to File > Print
  3. In layout view after completing all desired formatting moving directly to File > Print will print out the specified layout.

Temporal Analyst Edit

Temporal Analyst is an extension for storage, management, processing, plotting and analysis of virtually any time-related data inside ArcGIS application and was developed by DHI. Temporal Analyst tool for GIS brings time series data management directly into ArcGIS and provides fully dynamic data handling, modeling and monitoring.


Geographic Information System Software Market Set for Rapid Growth and Trend by 2021-2027 Covid-19 Analysis | Map Business Online, Bridge, ArcGIS

It serves as a foundation and a source of assistance for newcomers to the market. It assists them in making a long-term decision that will assist them in establishing themselves in the market. Furthermore, this study includes essential data, methods, and an evaluation of industry trends that assist industries in developing their strategy. It's simple to receive a thorough examination of macroeconomic data, parent industry trends, and major elements with this Geographic Information System Software Market report. It aids them in projecting future trends based on previous experiences, current market conditions, and future projections. It benefits the customers in every way, including monetarily, culturally, and economically.

Key global participants in the Geographic Information System Software market include:
Map Business Online
Bridge
ArcGIS
LandVision
SiteSeer Technologies
Simple GIS Client
Maptitude
GovPilot
eSpatial

20% Discount is available on Geographic Information System Software market report:
https://www.globalmarketmonitor.com/request.php?type=3&rid=673808

On the basis of application, the Geographic Information System Software market is segmented into:
Mapping
Road inspection
Real Estate
Land Control
Disease Spreading Management
Business Information

On the basis of products, the various types include:
Cloud-based
Desktop Installed
Mobile/tablets

Table of Content
1 Report Overview
1.1 Product Definition and Scope
1.2 PEST (Political, Economic, Social and Technological) Analysis of Geographic Information System Software Market
.
2 Market Trends and Competitive Landscape
3 Segmentation of Geographic Information System Software Market by Types
4 Segmentation of Geographic Information System Software Market by End-Users
5 Market Analysis by Major Regions
6 Product Commodity of Geographic Information System Software Market in Major Countries
7 North America Geographic Information System Software Landscape Analysis
8 Europe Geographic Information System Software Landscape Analysis
9 Asia Pacific Geographic Information System Software Landscape Analysis
10 Latin America, Middle East & Africa Geographic Information System Software Landscape Analysis
11 Major Players Profile
.

Since this Geographic Information System Software market report outlines an effective business model, key players will benefit handsomely from making the correct market investments. Since this market report depicts the constantly changing customer requirements, retailers, and purchasers in various regions, it is easy to identify particular resources and make massive revenue in the global market. Along with all the geographical analysis, it focuses on the major segments and involves geographic cities including Europe, Asia Pacific, North America, Latin America, and the Middle East and Africa.

In-depth Geographic Information System Software Market Report: Intended Audience
Geographic Information System Software manufacturers
Downstream vendors and end-users
Traders, distributors, and resellers of Geographic Information System Software
Geographic Information System Software industry associations and research organizations
Product managers, Geographic Information System Software industry administrator, C-level executives of the industries
Market Research and consulting firms

With the help of this Geographic Information System Software Market Report, you can also discover problems and find solutions to them. It also aids in consumer targeting, sales growth, and increased profits in the business. Market research allows you to better understand your customers, making it easier to meet their needs. The Market Report contains up-to-date and accurate information. It also allows you to go over key information. Market Research Reports also allow market participants to track marketing efforts, which helps them locate the correct chances and make profitable investments. Another important component that Market Report considers is the state of the business. It describes the overall market situation as well as market growth. Sales tactics, models, pillars, and features are among the many business aspects covered.

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Name: Rebecca Hall
Phone: + 1 (347) 467 7721
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This section describes the data collected for this project, the location of the data, and how to access them.

Data Format and Projection
The primary format for all vector data is the file geodatabase feature class in the Universal Transverse Mercator (UTM) Coordinate System, Zone 19, WGS84. For users without access to ArcGIS 9.2 or higher, all vector data are also delivered in as ESRI shapefiles in the geographic coordinate system (WGS84). The raster data are GeoTIFFs and ESRI Grids in UTM, Zone 19, WGS84 projection. The sidescan-sonar backscatter mosaics are also delivered in geographic coordinate system (WGS84) for viewing through the Coastal and Marine Geology Program Internet Map Server (http://coastalmap.marine.usgs.gov/).

All spatial data are distributed with Federal Geographic Data Committee (FGDC) compliant metadata in .xml format. The metadata for data outside the file geodatabase is also in text (*.txt) and FGDC Classic (*.html) format. The metadata for feature classes in the file geodatabase are in .xml format only, but can be viewed and exported by using ArcCatalog (ver. 9.2) in eight other formats, including FGDC Classic.

Data Access
The complete data sets from this project can be accessed in three different ways depending on the software you have available.

  1. If you have ArcGIS 9.2 or higher &ndash view and manipulate all data.
  2. If you do not have any GIS software &ndash view all data (free software download required).
  3. If you have ArcView 3.x &ndash view all data in shapefile format and the ESRI binary bathymetry grids.

If you have ArcGIS 9.2 or higher:
Copy the following folder GIS/OFR2007_1373 or download the GIS/OFR2007_1373 WinZip file to your computer and open the ArcMap document CapeAnn_SalisburyBeach.mxd. This map document has all the data layers loaded in the table of contents and uses relative hyperlinks so there is no need to change any pathways for drive letters as long as you keep all the folders under the parent directory (GIS).

If you do not have any GIS Software:
You can still view all the data via ArcReader, a free mapping application distributed by ESRI for Windows, Linux, and Unix operating systems. You will need to download ArcReader and install it on your computer. Go to the ESRI website at http://www.esri.com/software/arcgis/arcreader/download.html and follow the directions for downloading and installing the free software. Once ArcReader is installed on your computer, you can view all the data by opening the Published Map File (pmf) at GIS/CapeAnn_SalisburyBeach.pmf.

Data Organization
The data are organized in folders of the DVD and website as described below.

GIS &ndash top-level directory for all spatial data. Copy or download this folder to a local hard drive. Note: the size of the uncompressed version of this directory on the DVD is 2.14 Gb, whereas the size of the compressed version is 260 Mb. The compressed version does not include the bottom photo or seismic-profile images that can be downloaded separately below.

CapeAnn_SalisburyBeach.mxd &ndash ArcGIS 9.2 map document with all data loaded in the table of contents.

CapeAnn_SalisburyBeach.pmf &ndash ESRI ArcReader (Publisher 9.2) map document for use with free ArcReader software. You can download ArcReader free of charge on the www at: http://www.esri.com/software/arcgis/arcreader/download.html

OFR2007_1373.gdb &ndash ArcGIS 9.2 file geodatabase with all vector data stored in feature class format. The size of the uncompressed file geodatabase on the DVD is 36 Mb, and the size of the compressed file is 8.1 Mb. See data catalog below for more information.

Raster &ndash Folder containing all raster data in ESRI Grid, or GeoTIFF formats.

Bathymetry &ndash Contains bathymetry and hillshade grids of nearshore, offshore, and merged data.

Backscatter &ndash Contains the sidescan-sonar backscatter tiled GeoTIFF mosaics for nearshore and offshore areas.

Hyperlink_images &ndash Contains seismic profile and bottom photography images in JPEG format. Seismic profile images are hyperlinked to the SeismicTracklines layer in the ArcMap Document table of contents. Bottom photographs are hyperlinked to the BottomPhotos data layer. Use the hyperlink tool in ArcGIS to click on these data layers in the data view to view the linked image.

Layers &ndash Contains ArcGIS layer files that store the user-defined symbology, labeling, and other display parameters of the feature class, grid, or GeoTIff.

Shapefile &ndash Contains the eight feature classes from the geodatabase in shapefile format (geographic coordinate system WGS84).

Data Catalog

Vector Data &ndash The vector data are stored and delivered together in a single file geodatabase. A user with ArcGIS 9.2 or higher can download the single zip file (OFR2007_1373_FGDB.zip) below and access all the vector data and associated metadata. A user without ArcGIS 9.2 or higher can access the data as individual shapefiles in geographic coordinates system. The hyperlinks in the first column below (Layer (metadata for shapefiles)) are linked to the metadata for the shapefile version of the data.

Layer (metadata for shapefiles)

OFR2007_1373.gdb

ArcGIS 9.2 File Geodatabase including all layers below and FGDC metadata in xml format

Bathymetric Contours at 10m intervals

Locations of bottom photographs

Trackline of SeaBoss bottom video

Locations of sediment samples

Locations of seismic shotpoints at 500 shot intervals.

Tracklines of seismic profiles.

Raster Data &ndash The primary coordinate system for the raster data is UTM Zone 19. The backscatter mosaics and merged bathymetry are also delivered in the geographic coordinate system.

5-meter bathymetric grid of the inshore survey area in ESRI 32-bit continuous floating point format.

5-meter bathymetric grid of the offshore survey area in ESRI 32-bit continuous floating point format.

5-meter bathymetric grid of both the inshore and offshore survey areas in ESRI 32-bit continuous floating point format.

5-meter bathymetric hillshade grid of both the inshore and offshore survey areas in ESRI 16-bit continuous unsigned integer format.

1-meter backscatter mosaic of the inshore survey area in 8-bit continuous unsigned integer GeoTIFF format

5-meter backscatter mosaic of the inshore survey area in 8-bit continuous unsigned integer GeoTIFF format

Hyperlinked Images
(metadata)

Seismic reflection profile images in jpg format

Bottom Photographs in jpg format

U.S. Department of the Interior | U.S. Geological Survey
URL: https://pubs.usgs.gov/of/2007/1373/html/appendix1.html
Page Contact Information: Contact USGS
Page Last Modified: Wednesday, 07-Dec-2016 21:00:21 EST


Fundamentals of GIS

Explore the world of spatial analysis and cartography with geographic information systems (GIS). In this class you will learn the basics of the industry’s leading software tool, ArcGIS, during four week-long modules: Week 1: Learn how GIS grew from paper maps to the globally integrated electronic software packages of today. You will install ArcGIS on your computer and learn how to use online help to answer technical questions. Week 2: Open up ArcGIS and explore data using ArcMap. Learn the foundational concepts of GIS, how to analyze data, and make your first map. Week 3: Make your own maps! Symbolize data and create an eye-catching final product. Week 4: Share your data and maps and learn to store and organize your data. Take Fundamentals of GIS as a standalone course or as part of the Geographic Information Systems (GIS) Specialization. By completing the first class in the Specialization you will gain the skills needed to succeed in the full program. Students who need an ArcGIS license will receive a non-commercial, 1 year student license for participation in this course and specialization.

Получаемые навыки

Spatial Analysis, Data Analysis, Data Visualization (DataViz), Software

Рецензии

the content is awesome. i would recommend it to those who need to have some basic knowledge of GIS. it's very easy to learn the ArcGIS because of the instructions and demos given by the instructor.

Muy buen curso, me sirvió mucho, aprendí demasiado sobre las cosas básicas y el profesor es muy bueno !! Super recomendado si no saben nada de GIS y están empezando a comprender las herramientas

In this module we will identify common datasets in both the US and Internationally. We will use a new mode in ArcGIS to create complete maps that include proper symbology, legends, titles, north arrows, and data sources. We will further use more advanced mapping techniques to output map books and label items on the map.

Преподаватели

Nick Santos

Текст видео

[MUSIC] Hello again, and welcome back. In this lesson, I'm going to show you how to use some of the symbology options in ArcGIS to display your data more effectively on a map. We'll cover choosing color rims, changing how many groups your data is broken up into, normalizing your data, and choosing between different chart types to show up on top of your data. I'll also point out a couple advanced features that we'll see along the way, but that we won't cover in this particular class. We'll show them in a future class and the specializations then. So to start us off since we already saw how to break out data by categories when we displayed our huck twelves by the huck eight field in a previous lecture, I'm going to skip over that for now in the interest of time and show you to start with how to display some population data, some quantitive data as the symbology for your county. So to do that, we'll bring up the layer properties pane and go to the Symbology tab. And I'm going to skip over the categories where we've done a little bit of this. And I'm going to go straight to quantities for this lecture. And to start with, it's really similar to what we saw with categories. We select a field that contains the values we want to symbolize by and then it's going to give us groupings down below. So let's view the total population by county in the state of California. So to do that since I'm already in the counties layer, I'll just select in the value field the total population field and by default, it gives me five groups down below here and it uses this color ramp that I chose before. And then, it also chooses five classes to break it into, and uses the natural breaks method to find the boundary lines between these different groups. They're not split into even groups. If I wanted to change how they are split up, I could click the Classify button and I can modify that there. We'll cover that in a future class. For now, let's just accept the defaults and click OK. And there we go. The state is divided up by total population per county and we can see that by default it found only one value to be put in this largest class and then it found a few for the orange, the second largest class, a few for the smaller class and then the other two ended up being the bulk of the state. One thing I notice about this, is that I'm not sure that the green to red color ramp is the best choice for this. We're used to red meaning high intensity and there's certainly a high intensity amount of population in Los Angeles County down here. But green to red often can base a good to bad scale rather than just a lots of people here scale. So I might want to change the color ramp to something more neutral. So let's go back and do that now. If I click on the Color Ramp, I'll choose a more neutral ramp, such as this white to purple one here. I click OK. We see much more intensity, but we don't have those values projected onto our map. One other thing I want to point out about the color ramps, is that we can view them graphically by default, but if I right click on it and uncheck the graphic view option here, I get a list of descriptions, which in some ways seems less useful except for that some of them are named by Purpose, so for slopes or for surfaces or for temperatures. So it can be a good suggestion to you of what other people are expecting you to display your data as precipitation, LAS Class Codes, that's for LightR data, things like that. So just check that out, make sure you know how to use that, because every once in a while in comes in really handy. Similarly if I right-clicked on here and did Properties I can create my own custom color ramp so I don't have to just settle for the built-in ones in ArcGIS, but those are very good usually. So I pointed out that we can change the number of groups here before but let's just do that now to see what happens. And it just automatically splits it up for us. And I can click Apply and take a look at how that splits up the state. We still have LA in one, but there's more of a fine gradient. One consequence of this is that it can be really hard in a legend for people to identify which group something's in. When you're looking across an area it can be hard to tell whether or not this and this are the same color, or this and this. Without them being right next to each other or when the legend's far away. So be careful about doing more than about five groups. So I'll pop that back over to five groups for now. Click Apply. And let's try something new. So instead of displaying the total population, I'm going to display the percentage of the population that is Asian in California, and I can show just the number of Asian people here, and that's kind of a relative metric per county here, but I can also show it normalize the total population of each county. Normalization shows a value of interest, in this case the number of Asian people in each county as percentage of a total. So if we select from the normalization menu, the total population, our GIS divides the value and the attribute table for each record and the Asian field by the value for total population and gives us a proportion down here and reassigns it. And what will happen if we click Apply is we see these things change because while relative to the whole state, these counties in here may not have a lot of Asian people. They have a lot more relative to their total population in their county. This can be a really useful way to explore your data and explore different demographic trends. What if I wanted to see more information about the racial breakouts of each county here? I can't really show multiple races in this format, so we need a new symbology type to do that. So let's bring this over here so we can see it again, and the symbology type that will do that for us is in the charts section. So as shown down here in this helpful little icon, charts can give us pie charts, or stacked value charts, or bar and column charts based on any attributes that we want to select in our attribute table. So this is really handy for showing large amounts of information from the attribute table right on the map, right on top of your geometry. So what we'll do here is I'm going to select each of the races here and I'm just going to pop them over to the right side. And we'll choose a different color ramp here. Another kind of neutral color ramp. And I'm going to click Apply. And ArcGIS draws pie charts on top of these symbols for me. There are a lot of options that I can play around with in here. But I'm going to leave that to you for now. I just want to show you what the possibilities here are. The primary one that you probably want to play around with in this situation is the size panel here because these features are a little hard to see what's going on under them and which feature they're assigned to even with the leader lines. So it'll probably be appropriate to play with that until they actually showed up on your map in a way that you can see them and also see your geometry. So while we have a useful breakout of the racial information per county here, we still have lost that statewide trend again. So if we want to be able to see both, we're going to need a different chart. And in this case, weɽ use the stacked chart to achieve that. And I'll add all of these back over again and select another neutral palette. Click Apply. And what we get instead is a whole different variation on the chart. And it's a little hard to see here and that's for two reasons. One is the color ramp I selected wasn't particularly good in this case, and two, if that Los Angeles is such a big county in terms of population that most of these others become nearly invisible. Iɽ argue that it's so big that it makes this style of map nearly useless for this particular use case, but you may have some use cases for this where it's not. There's not really a right or wrong choice for these types of maps. It's really about what works best for the data that you're working with and the theme that you're trying to convey with the map. I want to show you one more technique with symbology before we wrap this up. And to do that, I'm going to switch over to a different data frame that has a different set of data layers in it, one that you'll be very familiar with. It delivers layers again. What I'm going to show you here is how we can set different symbol sizes based on attributes instead of different symbol colors. This can be useful for anything from volumes of shipments along a route to volumes of traffic or volumes of water which is what I'm going to show you. To get a little bit better of a view let's zoom into a different part of the state here. And then, let's open up the symbology palette. And this one is once again under Quantities. But instead of graduated colors, which is what we used before, I'm going to use graduated symbols. And as you can see with what we did before, you can use it with point data down here where it will scale the points symbol size based on your attributes and we're going to do it in this case with lines instead. I have a template feature class over here, so I'm going to select the blue rivers. Red over here. And then, it gives me the option to set the symbol size range. So it's going to give me symbols ranging from half a point all the way up to four points. And I'll select the value field. For to do that scaling, and in this case I'm going to use the total drainage square kilometers field that you've seen me use before. So we'll select that and it's telling me that its maximum sample size is reached which means that it went through a bunch of records but it didn't look through all of them so it can't guarantee that all of the values are going to fit in the ranges that it's showing me. That's okay in this case. And what we see here now, is we see five groupings, and they're grouped by the size of the river or what we're using as a proxy for size. The drainage area means that it's going to have more area upstream for larger number, so it's more likely to have larger amounts of water in it with a larger drainage area. So we're using this kind of a proxy. Once again, I can do normalization, I can select the number of classes, and a couple of other features in here. So I'm going to leave it as a default though and we're going to click Apply and see what happens. And what we get is a more typical rivers map. Close it out so I can see a little better. And we have these main stem rivers that are receiving much more of the water and get bigger and bigger as we flow downhill. This is what we would expect in the water world and maybe you can use the same sort of technique if you're visualizing movement of goods or traffic of people on particular corridors or things like that. That's it for this lesson. In this lesson, we covered how to display your quantitative data on your maps in ArcGIS. We also covered how to choose different color ramps, and changing the breaks and classes in normalizing your data. I also showed you how to put charts on top of your features to display different groupings of data. And finally, we covered how to have ArcMap scale the size of your symbols based on values in your features attribute table. In the next lesson, we're going to covered one of the topics we haven't touched on yet, which is labeling your feature information on your map. It's really great to be able to display your features, but if people don't know what they are, it can be really hard for you to share your maps. See you there.


Regionalization/Zoning Systems

An Emerging Field?

Perhaps the downside of all the regionalization techniques mentioned is the level of technical expertise required to apply the algorithms and set the criteria. From an infinitely more user-friendly perspective, many GIS systems now have built-in redistricting wizards. ESRI's districting extension (available for both ArcGIS and ArcView ) states that it will allow the user to redraw political boundaries, define schools and fire districts, and set up sales territories. When using the extension users must interactively assign BBZs to regions. Mapinfo also have a redistricting feature that allows users to run ‘what if’ scenarios and manually move BBZs between regions to maximize specific criteria. This availability of technology, while simplifying the regionalization process, also removes the ‘expert’ and as such we need to consider the possible problems. Maps, or in this case boundary sets, reflect the needs of any user and as such are value laden entities. We could term the emergence and use of these new technologies as a form of ‘everyday gerrymandering’ that neglects the importance of the researcher's judgment and expertise, and the need for a degree of manual manipulation of the end product based on local knowledge. On the other hand, combined with the emergence of public participation GIS (PPGIS), the redistricting extensions available will enable communities to embrace spatial technology that can lead to boundary redefinition and indeed increased opposition to politically defined boundaries.

The use of detailed algorithms, computer programs, and automated procedures is not however value free. A plethora of research in the regionalization field has attempted to define ‘communities’ or ‘localities’, but few have asked whether these output regions have any real meaning for their residents. Perhaps this is related to the scale at which we work and the subjective selection of the initial datasets with the application of the methodology being clearly dependent upon the input data. The choice and retrieval of primary datasets is crucial and must be made relevant to the application at hand, for example, what type of data should be used when creating school catchments? Further to this, the use of administrative units neglects the reality of flows and networks that are representative of everyday life. In an effort to ensure that automated regions reflect, to some degree, peoples’ levels of social contact and sense of place, alternative regionalization methods could combine both a quantitative modeling approach and a more in-depth exploratory qualitative approach. Such a qualitative dimension would attempt to capture local knowledge and perceptions of daily interactions and spaces while involving interactive participation within the research. The emergence of participatory GIS techniques could be used in novel approaches to regionalization and zone design. Furthermore, developments in GIS technology and the georeferencing of address-based data enable creation of zones based on detailed point data rather than arbitrarily defined building blocks. Future research in this area should be compelled to recognize the enormous potential of the data-rich resources now available. In any method of regionalization we should concern ourselves with the analysis of the most up-to-date and relevant interaction, boundary and qualitative data – that allows areas to set themselves aside as easily identifiable functional regions.


GIS Mapping

Like many local government agencies, the City of Chattanooga Public Works, uses geographic information systems (GIS) as a digital data repository, for storing information pertaining to, storm water and sewer network locations. A GIS in its simplest terms, is a digital map, very much like Google maps. However, we use mapping data that is very specific to Hamilton County and the City of Chattanooga.

This GIS map is provided by the Hamilton county GIS department. Residents can utilize this web map to view hamilton county base map. This is a great place to start if you are looking for basic mapping information for hamilton county.

Since Public Works collects refuse on certain days based on location, a useful map was created to show residents when their refuse will be collected based on their location inside city limits.

The impervious area map lets users view the estimated impervious area for a given property.

Green infrastructure map highlights some of the improvements that the city government and the private sector have added to their properties.

This unique map memorializes those who were killed in a mass shooting on July 16, 2015. This map is a tribute to the fallen sailor and marines who lost their lives on that tragic day.

New to Chattanooga? Check out our park map that shows locations of parks in the City of Chattanooga.


Web Services

This page serves as a guide to GIS data available from New York State Agencies via automated means using web services and extensible markup language (XML), as well as other popular media types. Services are invoked with the REST protocol.

Note: End users of a services who have a very large application user base should alert the host agency, so the clients can be kept advised of information about changes and updates

Adirondack Park Agency

Description: Adirondack Park Boundary

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://services2.arcgis.com/8krRUWgifzA4cgL3/ArcGIS/rest/services/AdirondackParkBoundary/FeatureServer
  • WMSURL:
  • Notes: Feature Service of Boundary of the New York State Adirondack Park.

Description: Adirondack Park State and Private Land Class

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://services2.arcgis.com/8krRUWgifzA4cgL3/ArcGIS/rest/services/Adirondack_Park_State_and_Private_Land_Class_Features/FeatureServer
  • WMSURL:
  • Notes: Feature Service of State and Private Land Classification in the Adirondack Park of New York State.

Description: State Land Map

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://services2.arcgis.com/8krRUWgifzA4cgL3/ArcGIS/rest/services/StateLandMap/FeatureServer
  • WMSURL:
  • Notes: Feature Service of Adirondack Park State Land Map areas including State Land Master Plan unit classifications.

Description: Adirondack Designated Rivers System

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://services2.arcgis.com/8krRUWgifzA4cgL3/ArcGIS/rest/services/AdirondackRiversSystem/FeatureServer
  • WMSURL:
  • Notes: Feature Service of Adirondack Portion of the New York State Wild, Scenic and Recreational Rivers System

Description: Adirondack Park Historic State Land Acquisition

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://services2.arcgis.com/8krRUWgifzA4cgL3/ArcGIS/rest/services/HistoricStateLandAcquisition/FeatureServer
  • WMSURL:
  • Notes: Feature Service of Old growth timber areas of the Adirondack Park, New York State.

Description: Damage 1950 Blowdown in the Adirondack Park

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://services2.arcgis.com/8krRUWgifzA4cgL3/ArcGIS/rest/services/Damage1950Blowdown/FeatureServer
  • WMSURL:
  • Notes: Feature Service of Areas damaged by a 1950 windstorm in and around the Adirondack Park, New York State.

Description: Damage 1995 Blowdown in the Adirondack Park

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://services2.arcgis.com/8krRUWgifzA4cgL3/ArcGIS/rest/services/Damage1995Blowdown/FeatureServer
  • WMSURL:
  • Notes: Feature Service of Storm Damage resulting from the 1995 Adirondack Derecho.

Description: Park Boundary 1982

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://services2.arcgis.com/8krRUWgifzA4cgL3/ArcGIS/rest/services/ParkBoundary1892/FeatureServer
  • WMSURL:
  • Notes: Feature Service of 1892 boundary of the Adirondack Park.

Description: Elevations Over 2500 feet in the Adirondack Park

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://services2.arcgis.com/8krRUWgifzA4cgL3/ArcGIS/rest/services/ElevationsOver2500ft/FeatureServer
  • WMSURL:
  • Notes: Feature Service of High elevations in the Adirondack Park.

Description: Wetland Covertypes of the Adirondack Park

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://tiles.arcgis.com/tiles/8krRUWgifzA4cgL3/arcgis/rest/services/Wetland_Covertypes/MapServer
  • WMSURL:
  • Notes: Tile Service

Description: Regulatory Wetlands in Promulgated Counties of the Adirondack Park

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://tiles.arcgis.com/tiles/8krRUWgifzA4cgL3/arcgis/rest/services/WetlandRegulatoryPark/MapServer
  • WMSURL:
  • Notes: Tile Service

Description: Adirondack Park State and Private Land Class with Anno

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://tiles.arcgis.com/tiles/8krRUWgifzA4cgL3/arcgis/rest/services/Adirondack_Park_State_and_Private_Land_Class_Features_withAnno/MapServer
  • WMSURL:
  • Notes: Tile Service

Description: Damage 1916 Fire in the Adirondack Park

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://tiles.arcgis.com/tiles/8krRUWgifzA4cgL3/arcgis/rest/services/Damage1916Fire/MapServer
  • WMSURL:
  • Notes: Tile Service

Description: Historic USGS Quads in the Adirondack Park 1895 to 1910

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://tiles.arcgis.com/tiles/8krRUWgifzA4cgL3/arcgis/rest/services/HistoricUsgsParkMosaic/MapServer
  • WMSURL:
  • Notes: Tile Service

Description: Summits of the Adirondack Park

  • ARC GIS SERVER: ArcGIS Online
  • Rest End Point: https://services2.arcgis.com/8krRUWgifzA4cgL3/arcgis/rest/services/Summits/FeatureServer
  • WMSURL:
  • Notes: Feature Service of Adirondack Park summits from GNIS 2013 data with elevation edits for summits above 4000 feet.

Department of Environmental Conservation

Description: Aquatic Toxicity Monitoring

Description: Aquatic Biological Monitoring

Description: Boat Launch Sites

Description: Charging Station Rebate Grants

Description: Chemical Bulk Storage Facilities

Description: Climate Smart Communities

Description: Climate Smart Communities Grants

Description: Critical Environmental Area

Description: Dams

Description: Environmental Excellence Award Winners

Description: Hazardous Waste Treatment and Storage Facilities

Description: Inland Trout Stream Fishing

Description: Major Oil Storage Facilities

Description: Multi Sector General Permits (MSGP)

Description: Municipal Separate Storm Sewer System - MS4 Extended

Description: Municipal Separate Storm Sewer System (MS4)

Description: NYS Active Landfills

Description: NYS DEC Land

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/dec_lands/MapServer
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/dec_lands/MapServer/WmsServer?
  • Notes:

Description: NYS DEC Roads and Trails

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/dec_trails/MapServer
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/dec_trails/MapServer/WmsServer?
  • Notes:

Description: NYS State Land Assets

Description: OEJ Grants

Description: Oil Gas and Other Regulated Wells

Description: Petroleum Bulk Storage Facilities

Description: Potential Environmental Justice Area

Description: Public Fishing Parking Areas

Description: Remediation Boundaries

Description: Remediation Sites

Description: Stream Access

Description: Wastewater Facility

Description: Waterbody Inventory List

Description: Wildlife Management Units

Department of State

Description: Biological

  • ARC GIS SERVER: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/BioData/MapServer
  • Rest End Point: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/BioData/MapServer
  • WMSURL:
  • Notes: About 350 data layers available the the Geographic Information Gateway at http://opdgig.dos.ny.gov/

Description: DOS’ Offshore Atlantic Ocean Study Boundaries

  • ARC GIS SERVER: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/HumanUseData/MapServer
  • Rest End Point: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/MainMap/MapServer
  • WMSURL:
  • Notes:

Description: Brownfield-related Cultural and Demographic

  • ARC GIS SERVER: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/DataBrownfields/MapServer
  • Rest End Point: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/DataBrownfields/MapServer
  • WMSURL:
  • Notes:

Description: Recreational, Resource, and Commercial Uses Planning Boundaries Utilities and Transportation

  • ARC GIS SERVER: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/HumanUseData/MapServer
  • Rest End Point: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/HumanUseData/MapServer
  • WMSURL:
  • Notes:

Description: Physical Environment

  • ARC GIS SERVER: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/PhysicalData/MapServer
  • Rest End Point: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/PhysicalData/MapServer
  • WMSURL:
  • Notes:

Description: Citizen Science

  • ARC GIS SERVER: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/CitizenScience/MapServer
  • Rest End Point: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/CitizenScience/MapServer
  • WMSURL:
  • Notes:

Description: Long Island Sound Study Data

  • ARC GIS SERVER: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/LIS_data/MapServer
  • Rest End Point: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/LIS_data/MapServer
  • WMSURL:
  • Notes:

Description: New York Harbor/Offshore Manhattan seismic profiles

  • ARC GIS SERVER: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/NYHarbor_NYDEC_Data1/MapServer
  • Rest End Point: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/NYHarbor_NYDEC_Data1/MapServer
  • WMSURL:
  • Notes:

Description: Erie County Watershed Atlas

  • ARC GIS SERVER: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/Erie/MapServer
  • Rest End Point: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/Erie/MapServer
  • WMSURL:
  • Notes:

Description: NYS DOS EPF Contracts/Grants

  • ARC GIS SERVER: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/EPF_Contracting_Sheet_MapService/MapServer
  • Rest End Point: http://opdgig.dos.ny.gov/arcgis/rest/services/NYOPDIG/EPF_Contracting_Sheet_MapService/MapServer
  • WMSURL:
  • Notes:

Department of Transportation

Description: Basemap

  • ARC GIS SERVER: https://gis.dot.ny.gov/hostingny/rest/services
  • Rest End Point: https://gis.dot.ny.gov/hostingny/rest/services/Basemap/MapServer
  • WMSURL:
  • Notes: -

Description: Bridges and Large Culverts

  • ARC GIS SERVER: https://gis.dot.ny.gov/hostingny/rest/services
  • Rest End Point: https://gis.dot.ny.gov/hostingny/rest/services/NYSDOT_Structures/MapServer
  • WMSURL:
  • Notes: Bridges with a span of greater than or equal to 20 feet Large Culverts on NYS state highways with a span between greater than or equal to 5 and 20 feet.

Description: Commercial Vehicle Data Feed (CVDataFeed)

  • ARC GIS SERVER: https://gis.dot.ny.gov/hostingny/rest/services
  • Rest End Point: https://gis.dot.ny.gov/hostingny/rest/services/CommVehicleDataFeed/MapServer
  • WMSURL:
  • Notes: -

Description: Functional Classification of Roads

  • ARC GIS SERVER: https://gis.dot.ny.gov/hostingny/rest/services
  • Rest End Point: https://gis.dot.ny.gov/hostingny/rest/services/Geocortex/FC/MapServer
  • WMSURL:
  • Notes: -

Description: Roadway Inventory Viewer

  • ARC GIS SERVER: https://gis.dot.ny.gov/hostingny/rest/services
  • Rest End Point: https://gis.dot.ny.gov/hostingny/rest/services/Geocortex/HDSV/MapServer
  • WMSURL:
  • Notes: -

Description: Posted Bridges

  • ARC GIS SERVER: https://gis.dot.ny.gov/hostingny/rest/services
  • Rest End Point: https://gis.dot.ny.gov/hostingny/rest/services/Geocortex/PostedBridges/MapServer
  • WMSURL:
  • Notes: -

Description: Traffic Data Viewer

  • ARC GIS SERVER: https://gis.dot.ny.gov/hostingny/rest/services
  • Rest End Point: https://gisportalny.dot.ny.gov/hostingny/rest/services/Roadways/Traffic_Monitoring/MapServer
  • WMSURL:
  • Notes: -

Description: Traffic Signals

  • ARC GIS SERVER: https://gis.dot.ny.gov/hostingny/rest/services
  • Rest End Point: https://gis.dot.ny.gov/hostingny/rest/services/Asset/NYSDOT_TrafficAsset/MapServer
  • WMSURL:
  • Notes: Traffic Signals on state highways

ITS GIS Program Office

Description: Geocoding Services - Street and Address Composite

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services/Locators
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/Locators/Street_and_Address_Composite/GeocodeServer
  • WMSURL:
  • Notes: More details available here: http://gis.ny.gov/gisdata/inventories/details.cfm?DSID=1278

Description: Geocoding Services - Street NoNum and ZipCode Composite

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services/Locators
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/Locators/Street_NoNum_and_ZipCode_Composite/GeocodeServer
  • WMSURL:
  • Notes: More details available here: http://gis.ny.gov/gisdata/inventories/details.cfm?DSID=1278

Description: Geocoding Services - NYPlace

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services/Locators
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/Locators/NYPlace/GeocodeServer
  • WMSURL:
  • Notes: More details available here: http://gis.ny.gov/gisdata/inventories/details.cfm?DSID=1278

Description: SAM Address Points

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/SAM_Address_Points/MapServer
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/SAM_Address_Points/MapServer/WmsServer?
  • Notes: All points symbolized as black dots

Description: SAM Address Points - Symbolized

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/SAM_Address_Points_Symbolized/MapServer
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/SAM_Address_Points_Symbolized/MapServer/WMSServer?
  • Notes: Points symbolized by PointType attribute, legend can be found on GIS Clearinghouse page: http://gis.ny.gov/gisdata/inventories/details.cfm?DSID=921

Description: NYS Streets

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Streets/MapServer
  • WMSURL: Not applicable
  • Notes: Contains public streets compiled from orthoimagery and attributed with street names, addresses, and route numbers. NOTE: This service is planned to be updated on the second and fourth Fridays of each month. To see updates where you have already used the service you will need to clear your cache.

Description: NYS Civil Boundaries

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Civil_Boundaries/FeatureServer/
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/NYS_Civil_Boundaries/MapServer/WmsServer?
  • Notes: Contains boundaries for incorporated places (state, counties, cities, towns, and villages) and Indian Territories in NYS. Also available as an ArcGIS Map Service: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Civil_Boundaries/MapServer/

Description: NYS Place Points

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Place_Points/FeatureServer
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/NYS_Place_Points/MapServer/WmsServer?
  • Notes: Contains point locations for incorporated cities, towns, and villages unincorporated places tribal communities and selected neighborhoods in New York State. Also available as an ArcGIS Map Service: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Place_Points/MapServer

Description: NYS Tax Parcels - Publicly Shareable Counties

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Tax_Parcels_Public/MapServer
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/NYS_Tax_Parcels_Public/MapServer/WmsServer?
  • Notes: This service has two layers: 1) a scale triggered tax parcel layer with data only for counties who gave the NYS GIS Program Office permission to share their data with the public or whose data was obtained from public sources, and 2) a scale triggered county footprint layer identifying counties where data is available in the tax parcel layer of this service.

Description: NYS Tax Parcels - State-Owned Only, Statewide Coverage

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Tax_Parcels_State_Owned/MapServer
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/NYS_Tax_Parcels_State_Owned/MapServer/WmsServer?
  • Notes: Contains only tax parcel data for NYS State-owned tax parcels. Coverage is Statewide.

Description: NYS Tax Parcels - Centroid Points, Statewide Coverage

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Tax_Parcel_Centroid_Points/MapServer
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/NYS_Tax_Parcel_Centroid_Points/MapServer/WmsServer?
  • Notes: Contains tax parcel centroid points with the same attributes as other GPO tax parcel polygon web services. Coverage is Statewide.

Description: NYS Assembly Districts

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Assembly_Districts/FeatureServer
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/NYS_Assembly_Districts/MapServer/WMSServer?
  • Notes: Boundaries (polygons) of NYS Assembly districts with name and contact info for Assemblyperson. Districts based on Legislative Task Force redistricting after March 2012. Information on representative based on Assembly website.

Description: NYS Senate Districts

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Senate_Districts/FeatureServer
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/NYS_Senate_Districts/MapServer/WMSServer?
  • Notes: Boundaries (polygons) of NYS Senate districts with name and contact info for each member of the NYS Senate. Districts based on Legislative Task Force redistricting after March 2012. Information on representative based on Senate website.

Description: NYS Congressional Districts

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Congressional_Districts/FeatureServer
  • WMSURL: https://gisservices.its.ny.gov/arcgis/services/NYS_Congressional_Districts/MapServer/WMSServer?
  • Notes: Boundaries (polygons) of NYS Congressional districts with name and contact info for Congressperson. Districts based on Legislative Task Force redistricting after March 2012. Information on representative based on Congressional website.

Description: USGS National Hydrography Dataset (NYS Subset)

  • ARC GIS SERVER: https://gisservices.its.ny.gov/arcgis/rest/services
  • Rest End Point: https://gisservices.its.ny.gov/arcgis/rest/services/NYS_Hydrography/MapServer
  • WMSURL: http://gisservices.its.ny.gov/arcgis/services/NYS_Hydrography/MapServer/WMSServer?request=GetCapabilities&service=WMS
  • Notes: This is a subset for New York State of the National Hydrography Dataset (NHD), there is more information about each layer in the description of the groups and specific layers. The NHD is a feature-based database that interconnects and uniquely identifies the stream segments or reaches that make up the nation's surface water drainage system. NHD data was originally developed at 1:100,000-scale and exists at that scale for the whole country. This high-resolution NHD, generally developed at 1:24,000/1:12,000 scale, adds detail to the original 1:100,000-scale NHD. Local resolution NHD is being developed where partners and data exist. The NHD contains reach codes for networked features, flow direction, names, and centerline representations for areal water bodies. Reaches are also defined on waterbodies and the approximate shorelines of the Great Lakes and the Atlantic Ocean. The NHD also incorporates the National Spatial Data Infrastructure framework criteria established by the Federal Geographic Data Committee. This service is also available as hollow fill symbology.

ITS GIS Program Office - Orthoimagery and Elevation

Description: Orthoimagery - Latest

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/Latest/MapServer/
  • WMSURL: https://orthos.its.ny.gov/ArcGIS/services/wms/Latest/MapServer/WMSServer?
  • Notes: Statewide coverage using the latest versions of the orthoimagery

Description: Orthoimagery - Latest CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/Latest_cir/MapServer/
  • WMSURL: https://orthos.its.ny.gov/ArcGIS/services/wms/Latest_cir/MapServer/WMSServer?
  • Notes: Statewide coverage using the latest versions of the orthoimagery in Color Infrared display

Description: Orthoimagery - 2018

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2018/MapServer/
  • WMSURL: https://orthos.its.ny.gov/ArcGIS/services/wms/2018/MapServer/WMSServer?
  • Notes:

Description: Orthoimagery - 2018 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2018_cir/MapServer
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2018_cir/MapServer/WMSServer?
  • Notes:

Description: Orthoimagery - 2017

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2017/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2017/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2017 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2017_cir/MapServer
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2017_cir/MapServer/WMSServer?
  • Notes:

Description: Orthoimagery - 2016

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2016/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2016/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2016 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2016_cir/MapServer
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2016_cir/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2015

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2015/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2015/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2015 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2015_cir/MapServer
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2015_cir/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2014

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2014/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2014/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2014 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2014_cir/MapServer
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2014_cir/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2013

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2013/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2013/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2013 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2013_cir/MapServer
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2013_cir/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2012

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2012/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2012/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2012 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2012_cir/MapServer
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2012_cir/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2011

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2011/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2011/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2011 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2011_cir/MapServer
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2011_cir/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2010

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2010/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2010/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2010 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2010_cir/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2010_cir/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2009

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2009/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2009/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2009 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2009_cir/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2009_cir/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2008

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2008/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2008/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2008 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2008_cir/MapServer
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2008_cir/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2007

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2007/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2007/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2007 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2007_cir/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2007_cir/MapServer/WMSServer?
  • Notes:

Description: Orthoimagery - 2006

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2006/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2006/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2006 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2006_cir/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2006_cir/MapServer/WMSServer?
  • Notes:

Description: Orthoimagery - 2005

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2005/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2005/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2005 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2005_cir/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2005_cir/MapServer/WMSServer?
  • Notes:

Description: Orthoimagery - 2004

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2004/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2004/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2004 CIR

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2004_cir/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2004_cir/MapServer/WMSServer?
  • Notes:

Description: Orthoimagery - 2003

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2003/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2003/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2002

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2002/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2002/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2001

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2001/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2001/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - 2000

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/2000/MapServer/
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/2000/MapServer/WMSServer?
  • Notes: -

Description: Orthoimagery - NAPP

  • ARC GIS SERVER: https://orthos.its.ny.gov/arcgis/rest/services/
  • Rest End Point: https://orthos.its.ny.gov/arcgis/rest/services/wms/napp/MapServer
  • WMSURL: https://orthos.its.ny.gov/arcgis/services/wms/napp/MapServer/WMSServer?
  • Notes: -

Description: Bare earth digital elevation models - Various sources and resolutions

  • ARC GIS SERVER: -
  • Rest End Point: https://elevation.its.ny.gov/arcgis/rest/services/
  • WMSURL: -
  • Notes: Image services of DEMs for much of the State

Description: Index of Statewide Orthos and DEMS Available for Download


Watch the video: How to Add and Format a Legend on a Map Using ArcMap ArcGIS (October 2021).