dev-034-Building Qt Apps with ArcGIS Runtime SDK

42 /arcuserDo More with The April 2019 release of version 100.5 of the ArcGIS Runtime SDKs enhanced 3D and KML functionality, augmentedoffline workflows, and introduced support for fundamental map-ping requirements such as reference scale and group.Working in 3DYou’ll see lower memory usage and better all-around perfor-mance when working with scenes as Esri continues to optimize the experience. This release of ArcGIS Runtime SDKs adds some significant 3D functionality. ArcGIS Runtime SDKs squeeze great performance out of mobile devices, displaying large volumes of symbolized and filtered lidar data. With Point Cloud Scene layers, datasets of hundreds of millions of points can be interactively visu-alized. It’s truly impressive.Not to be confused with the Point Cloud Scene layer, Point Scene layers provide fast display of point features in a 3D view based on scale, distance, and threshold parameters associated with a view-point. Publish these from point feature layers as a service or as a scene layer package or as part of a mobile scene package.You can now work with features that lie below ground level by adding transparency to the scene’s surface or simply by navigating and positioning the camera below ground. Properties on a scene’s surface allow you to enable or disable subsurface navigation and control the transparency of the ground.Mobile Scene Packages Version 100.5 adds support for Mobile Scene Packages (MSPKs). These files parallel Mobile Map Packages but (you guessed it) are for scenes and are generated in ArcGIS Pro to be side loaded onto your devices for an offline 3D experience.Working OfflineSpeaking of offline, Esri has been working on enhancements to the On Demand and Preplanned offline workflows that enable even greater control when working with data while disconnected.Basemap by ReferenceIn both On Demand or Preplanned workflows, you can now opt to make use of a locally stored basemap. For example, perhaps you have a vector tile package or raster tile package already down-loaded, which covers your entire service area. Not having to gen-erate or download the basemap tiles can significantly reduce the time it takes to generate and download an offline map.ArcGIS Runtime SDKs 100.5By Nick Furness and Rex HansenNext Gen Locators and Tile PackagesEsri’s geocoding team has been hard at work on next generation locators. At 100.5, ArcGIS Runtime SDKs bring support for these LOC files to Runtime. These are smaller and faster. What more could you want?Alongside that, Esri added support for the new Tile Package (TPKX) file format for local raster tiles. TPKX files use the Compact Cache V2 open spec. Generate a TPKX from ArcGIS Pro or ArcGIS Enterprise 10.7, or lean on the spec to create your own tile packages.Reference ScaleAlthough utility customers have long clamored for reference scale functionality, you don’t have to be a utility to make good use of a reference scale. Now a map authored in ArcGIS Pro can have refer-ence scales set on the map or on individual layers, and these scales are honored in ArcGIS Runtime SDKs.AnnotationAnnotation—text that is pinned in place relative to a feature or to the map—is another feature that is of great use to utilities. It’s not dynamically positioned like a label. It is statically positioned when the map is authored.Although this is just the first release that includes reference scale and annotation, these are already very capable features. However,Esri will be enhancing these features and adding APIs to better control them over the next few releases of the ArcGIS Runtime SDKs.Web Feature ServiceRounding out Esri’s Open Geospatial Consortium (OGC), Inc.format support, Web Feature Service (WFS) has been added. Now WFS, Web Map Service (WMS), and Web Map Tile Service (WMTS) layers can directly display OGC services in your map.KML ToursThe addition of KML tours completes the functional coverage for KML in the ArcGIS Runtime SDKs. Open a KML tour in the runtime and control its playback using an API.Group LayersGroup layers are another frequently requested feature. Esri intro-duced an API to support combining operational layers into group43/arcuser /ausubmissionWrite an article for ArcUser magazine. Tell the GIS world how your organization saved money and time or acquired new capabilities using GIS. Share your GIS management insights or your expertise in extending the GIS functionality of Esri software.Share Your Story in ArcUserDeveloper’s Sectionlayers in both maps and scenes. In addition, group layers defined in a web scene or mobile scene package will be honored.Local ServerLocal server has been updated at 100.5 to add compatibility with ArcGIS Pro 2.3 and ArcMap 10.7.Updated SDKsAt each release, Esri updates its world-class SDKs to cover the new capabilities added. In addition to updated guide topics and API reference docs, new sample apps and updated toolkits and open-source apps have been added. Additional specific information is available in the release notes for .NET, Java, Qt, Android, iOS, and macOS SDKs. This is the last release with a dedicated macOS SDK, but you can still use Java and Qt SDKs to build macOS apps.This release also brings bug fixes and performance improve-ments, and—under the hood—improvements that pave the way for some exciting new features over the next few releases.Download and Get StartedTo get 100.5, go to the ArcGIS for Developers () website, browse to the ArcGIS Runtime SDK page of your choice, and download the SDK. You can also reference an ArcGIS Runtime SDK through NuGet, Gradle, or CocoaPods. If you’re new to developing with ArcGIS Runtime and don’t have an ArcGIS Developer Subscription, simply sign up for a free account and you’ll be able to access everything you need to develop your app.About the AuthorsNick Furness is a technical product manager for ArcGIS Runtime SDKs for iOS and macOS. He has spent more than 20 years work-ing in GIS, building projects that have ranged from small mom-and-pop solutions to enterprise utility and national government deployments. H e presents at the Esri Developer Summit, the Esri User Conference, and many other events, mostly on ArcGIS Runtime SDKs with the odd bit of JavaScript thrown in.Rex Hansen is a product manager for ArcGIS Runtime. He has more than 25 years of experience in GIS, spatial analytics, and computer mapping. Recently, he has helped guide the development of native solutions and technologies in the GIS industry that use authorita-tive geospatial data in immersive, extended reality experiences.。

deployments. Monitor helps managers and administrators trouble-shoot performance and system issues within a single application. It can be used to investigate common performance issues such as system overload due to high traffic volume and network bot-•Are web services more active during specific time periods? •Are some web services mostly inactive? (Perhaps they should be changed or retired.)•Which Enterprise portal items are the most active?áBy collecting data metrics from registered enterprise GIS components and storing this data in an internal database, ArcGIS Monitor provides enterprise GIS managers and administrators with an archive of enterprise GIS activity.Organizations that Benefit from ArcGIS MonitorThese are some organizations that have used ArcGIS Monitor to cut down on outages, trouble shoot problems, optimize performance, and improve end-user experiences.“City of Calgary Monitors System Health with Enterprise GIS Optimization Tool” (https://bit.ly/3X12eQn)“Houston Public Works Manages Enterprise GIS with Per-formance and Optimization Solution” (https://bit.ly/3jtuYU2)“Stark County in Ohio Improves System Health with Enterprise GIS Optimization Solution” (https://bit.ly/3YnYDgh)“Forsyth County Monitors Enterprise GIS with Optimization and Management Solution” (https://bit.ly/3Rv9wKR)“The Utility of ArcGIS Monitor” (https://bit.ly/3HPWX9I)ShareY our Story in ArcUser/ausubmission Write an article for ArcUser magazine. Tell the GIS worldhow your organization savedmoney and time or acquired new capabilities using GIS. Share your GIS management insights or your expertise in extending the GIS functionality of Esri software.No issues reported by end-users is a good thing.Eddie FungGIS Data CoordinatorCity of Calgarydiscussed previously), Monitor uses terms and concepts that are familiar to the IT staff. This authoritative information about perfor-mance, health, and usage of enterprise GIS provides operational awareness of enterprise GIS to IT and management in a language that they can easily understand.Since Monitor collects and records data metrics over time, it can be particularly helpful in determining if appropriate system resources have been allocated to support enterprise GIS needs. If they have not, GIS staff will have the empirical evidence needed to validate system resource requests to IT, management, and other enterprise GIS stakeholders.5Promote Enterprise GISEnd User SatisfactionA key responsibility of enterprise GIS managers and administrators is to ensure that the system is working efficiently and meets the needs of the organization. The quote above succinctly summarizes this objective. This responsibility applies to an enterprise GIS of any size in any industry. When enterprise GIS efficiently addresses demands, end users are satisfied. By leveraging Monitor to ad-dress issues before they become critical, managers and adminis-trators can proactively manage the system to meet their goals and keep end users happy. ConclusionMonitor complements and strengthens your enterprise GIS deployment by providing a holistic view of the entire system and its infrastructure.About the AuthorDerek Law is a senior product manager for ArcGIS Monitor at Esri. Based in the Redlands, California, office, he’s involved with requirements gathering, software development, and product marketing. He’s worked for more than 20 years as a GIS profes-sional and has worked with many domestic and international clients. Follow him on Twitter: @GIS_Bandit and on Mastodon: mastodon.world/@GIS_BanditManager's Corner31/arcuser Spring 2023 au。

Build Accessible Web Apps By Kitty Hurley and Jessica McCallWeb accessibility techniques remove the barriers in web apps that can prevent people from fully experiencing content and supports the inclusion of individuals with disabilities.Creating fully accessible web solutions can be a complex pro-cess because the way individuals interact with the web can vary greatly. However, the Web Content Accessibility Guidelines (WCAG) (https://rebrand.ly/9xb6c1w) is a guide for improving accessibility on the web. WCAG is an internationally recognized coding standard that was developed to meet the varying needs of individuals, organizations, and government agencies when imple-menting web accessibility. Its success criterion provides standards for developers of web and mobile content when publishing web content or apps.Building Accessibility into Web MapsThe accessible components in ArcGIS Maps SD K for JavaScript (JavaScript Maps SD K) and Calcite D esign System demonstrate Esri’s commitment to accessibility. These components provide the building blocks to design an accessible UI. This article in-cludes some ways accessible and inclusive apps can be built with JavaScript Maps SDK and Calcite.Improve Color ContrastColor contrast is key for individuals who have low vision, macular degeneration due to age, color vision deficiency (color blindness), or other vision-related impairments.Being aware of the contrast of colors or specific combinations of colors is a key aspect when creating an accessible web app. WCAG Success Criterion 1.4.3: Contrast (Minimum) aims for a 4.5 to 1 ratio when visually presenting text and images.Color contrast can be enhanced with Calcite’s web components to support WCAG Success Criterion 1.4.3: Contrast (Minimum), or level AA. [WCAG has thre e levels of conformance: A is minimum, AA is midrange and widely accessible, and AAA is the most optimal accessibility rating.] You can also add support for WCAG Success Criterion 1.4.6: Contrast (Enhanced), or level AAA, by updating the CSS variable of calcite-ui-danger. It provides a contrast ratio greater than 7 to 1, when the background color is white or #FFF. Using High-Contrast ModeHigh-contrast modes increase the contrast of elements, making it easier to read text and distinguish individual elements. When these modes are enabled for an operating system (OS), colors are forced, visual elements are simplified, and browser-specific values are selected from a set of system colors that ensures consistent contrast. High-contrast mode supports individuals who have low vision or who are unable to distinguish shapes or details in objects. Add Contrast to MapsThere are several ways you can improve the contrast of maps to showcase solutions to a wider audience while supporting the suc-cess criterion. One method is to toggle between high-contrast basemaps. Switch between high-contrast light and dark basemaps using the BasemapToggle widget. To do this, add high-contrast basemaps as objects, as shown in Listing 1.Next, set the map’s basemap property to the light basemap, as shown in Listing 2. Then add the BasemapToggle widget with the nextBasemap set to the dark basemap, as shown in Listing 3.You can also toggle the JavaScript Maps SDK theme for addition-al contrast on the controls. For instance, when the high-contrast/arcuserDeveloper’s Sectionlight basemap is active, the JavaScript Maps SDK theme is dark, as shown in Listing 4.Customize Graphics by Basemap ThemeTo style graphics added to the map with an appropriate color con-trast ratio for the basemap, first obtain the basemap background color using getBasemapBackground and getBasemapColor and use that value.Use reactiveUtils to watch when the basemap’s background theme color changes from light to dark, or vice versa. An AbortController signal can be used to communicate, or abort a request in the document object model (D OM) when the view is no longer updating. Once the view has finished updating, use getBackgroundColorTheme to update the graphic’s symbol color, based on the light or dark value. See Listing 5.Navigating through ContentFocus attributes are important to accessibility because they help show people where they are on the screen and provide context for navigating through the screen as well as supporting better keyboard navigation. Setting focus attributes to underline, high-light, or place a shape around an active element ensures users can navigate sequentially through content when using a keyboard to meet WCAG Success Criterion 2.4.3: Focus Order. When using the open method for a pop-up, employ the shouldFocus option to shift focus to the pop-up when it is opened, as shown in Listing 6. Search Widget FocusShift focus between the search widget and the search results pop-up with reactiveUtils. Upon closing the results pop-up, focus will shift back to the search widget so users can navigate sequen-tially while searching the map’s content.When the pop-up is visible, set focus to the pop-up from the search widget using the search-complete event. First, create a promise with the reactiveUtils whenOnce() method and an AbortController signal when the pop-up is visible. Once visible, shift focus to the pop-up. A second promise waits for the pop-up to no longer be visible so that the focus will be set back to the search widget, as shown in Listing 6. AnimationsPeople who suffer from disorders of the vestibular system (which affects balance) or who have suffered traumatic brain injury can experience headaches, nausea, seizures, or other symptoms that are triggered by animations. Those users may consider choosing OS and browser settings to reduce animations and other inter-active elements. WCAG Success Criterion 2.3.3: Animation from âUse high-contrast basemaps to aid map readers with low vision. áListing 435/arcuserInteraction recommends allowing users to disable interactions unless animation is essential for conveying information.Calcite minimizes animation when system animations are turned off or reduced. When animations are enabled, animations are ex-ecuted in Calcite’s loader component.With JavaScript Maps SD K, animation on the map can be re-duced when animations are not shown or reduced with prefers-reduced-motion. When animations are enabled, some of the map’s functions—such as zooming to a feature—include basemap tile animations. When animations are turned off or reduced, a function can be added to reduce map animations. Add the goToOverride function to the pop-up’s goTo method, as shown in Listing 7. Explore FurtherThis article summarizes Building Accessible Web Apps with ArcGIS Maps SD K for JavaScript and Calcite D esign System, a session presented at the 2023 Esri D eveloper Summit in Palm Springs, California.The code and full demonstrations are available on GitHub (ht tps:///kellyhutchins/DevSummit2023-A11y). Subscribe to the Accessibility Community (/t5/ accessibility/ct-p/accessibility) on Esri Community.Some Final ThoughtsEsri supports the successful implementation of accessible map-ping apps. Accessibility should not be an afterthought. It is more efficient for developers and designers to include accessibility rather than reworking published apps. Accessibility should be a part of the development process throughout the app design and development workflow so that anyone can access web maps. About the AuthorsKitty Hurley is passionate about web map accessibility and bring-ing the web and maps to wider audiences. She is a senior product engineer with Calcite Design System at Esri. Outside work, Hurley enjoys exploring Minnesota’s wilderness and wants to visit every major league baseball stadium in America.Jessica McCall, the senior accessibility project manager for the Esri accessibility team, manages strategic planning and project management activities. Along with members of her team, she gathers and supports customer requirements for accessibility. Prior to joining Esri, she worked for a consulting firm as a project and operations manager supporting utility data migration anddata integration projects between GIS and CAD-based software.áListing 6/arcuser。

前言本文档主要介绍ArcGIS Desktop,ArcGIS for Server的安装配置，GIS服务的发布以及如何进行地图切片。

使用的ArcGIS软件版本为10。

1。

一、ArcGIS Desktop 安装运行安装包中的ESRI.exe，点击ArcGIS for Desktop后的Setup,开始安装，之后的过程点击Ok即可。

二、ArcGIS Server安装操作系统需求操作系统64位安装步骤安装ArcGISServer加载光盘后运行可以看见下面的界面我们选择安装ArcGIS for Server,点击ArcGIS forServer后面的的“Setup”在弹出的窗口中点击Next勾选I accept the license agreement点击Change可以修改安装路径,点击next继续点击Browse可以选择Python的安装目录，选择好后点击Next继续创建server账户和密码，设置完毕后点击Next继续如果有之前安装时候创建的账户配置文件，可以勾选下面的那个选项.提示是否导出账号信息.如无需要，可以选择不导出。

点击Next继续点击Install即可开始安装耐心等待安装结束点击Finish完成安装选择相应的授权方式进行授权授权完成，点击完成，结束授权创建站点安装完成后，会自动弹出Manager页面，这里我们选择创建站点。

加入现有站点是用来搭建集群的,以后会介绍.输入主站点管理员账户点击”下一步”。

很多人到这一步会有一个疑问：这个账户和刚刚安装ArcGIS Server步骤中创建的账户有关系吗？分别用来控制什么？首先在上一节中我们创建的ArcGIS Server账户,是为ArcGIS Server创建的操作系统账户(安装完你可以切换操作系统账户看一下，是不是多了一个ArcGIS Server)，该账户实际上用来管理ArcGIS Server的操作系统进程（启动、停止ArcGIS Server服务）;而我们此时创建的站点账户,主要是为了管理站点中的各种服务形式的GIS资源(各种类型服务的发布、启动、停止、删除；站点安全；集群管理等等）。

CES322101Guardians of the Galaxy: Autodesk Plus Esri - The BeginningKenneth L. DriscolApplied Software Technology, Inc.DescriptionThe Autodesk Connector for ArcGIS is the first step toward realizing the vision of the partnership between Autodesk and Esri to integrate BIM and GIS workflows. Autodesk Civil 3D, InfraWorks, AutoCAD, and Map 3D allow you to connect GIS data in a more seamless manner to your BIM design model. Learn how to enable designers, engineers and planners everywhere to import and export data into Civil 3D, Map 3D and InfraWorks. Review the traditional process of import-export and data connection methods for both Civil 3D and InfraWorks using tools like FDO. Learn Display and Stylization methodologies in InfraWorks and Civil 3D with connected Esri data sources. Understand what the ArcGIS Data Connector is in Civil 3D and InfraWorks and how to use it for a new model and an existing model in the Civil BIM + GIS Design Model environment. Understand the workflows associated with the accessibility to ArcGIS Online in Civil 3D and InfraWorks workflows associated with that connection in the Civil BIM model in Civil 3D using the Autodesk Connector for ArcGIS.Speaker(s)Kenneth L. DriscolKenneth is a Senior Technical Specialist in Civil Infrastructure for Applied Software with over 20 years’ experience in the Civil Engineering industry. Prior to joining the Autodesk reseller partner channel, he was a Design Engineer for an ENR 500 ranked design firm. Kenneth is an Autodesk Certified Product Support Professional and has reached the level of Civil Engineering Certified Implementation Expert. He regularly conducts seminars on the use of Autodesk Technology in civil engineering and regularly provides implementation services, customization, training, andsupport to civil engineering professionals on Autodesk A/E/C BIM Technology Portfolio products. He has become the regional expert on BIM for Civil as it pertains to civil engineering practices and interoperability between other design disciplines in the AEC enterprise. In addition to his civil engineering background, he also has been involved with field surveying and electronic data reduction. During his entire professional career Kenneth has used Autodesk products. During his tenure with a number of leading Civil Engineering firms, he participated in and led a number of projects for road design and improvement, underground utilities, site development, and storm and sanitary drainage design. Kenneth has diligently worked with Transportation clients who have transitioned with Autodesk and Bentley products to bridge the gap with data translation and production work: migrating data between AutoCAD Civil 3D and Bentley InRoads and Bentley GEOPAK software with the Civil Engineering Data Translator cloud service; and uploading design source files and converting them to target project data formats without having to install Bentley software.For the last 15 years, he has been a Senior Civil Application Specialist concentrating in Civil 3D, InfraWorks, Surveying, Map 3D, Hydrology and GIS services and instruction. Kenneth is Applied Software’s Senior Civil instructor and provides software demonstrations, custom and standardized classroom training, mentoring, and technical support.PROFESSIONAL EDUCATION & CERTIFICATIONSAutodesk Implementation ExpertCertified Autodesk InstructorAutodesk ICE Certified (Civil Implementation Expert)Autodesk Product Support ExpertFDOT (Florida Department of Transportation) Certified ExpertInfraWorks 360 Roads & Bridges CertificationAutodesk AutoCAD Civil 3D Certified ProfessionalAutodesk Storm & Sanitary Analysis Certified ProfessionalThe Traditional ProcessBy default, AutoCAD Map 3D considers SHP files a multi-select, file-based format; that is, you select one or more individual .shp files during a single import process. You can change the default in the mapimport.ini file so that AutoCAD Map 3D considers SHP files a folder-based format (all files in the folder are included in the import) or a single-select format (only one file can be selected for import).When importing SHP files, it is important that you have the complete set of .shp, .shx, and .dbf in the same folder. The import operation will work if you have only the .shp file, but only the geometries will be imported. To import data with its geometry, you need the full set of files.The link to the data stored in the .dbf file can be maintained during the import operation, or the data can be imported into object data in the AutoCAD Map 3D drawing..As access to data and information has expanded, so has interest in the whole concept of “Data at the Center,” which holds the promise of driving better infrastructure project workflows.BIM and GIS data are two important data sources supporting infrastructure project delivery and operations; however, current ways of working between BIM and GIS teams is often disconnected and highly fragmented.The way project teams work today with GIS and BIM is typically manual and uni-directional. For example, at project handover, the GIS specialist will take CAD or BIM data from the design and engineering teams and manually update it to import it into a GIS system. This process is prone to not just inefficiencies but critical data loss. Plus, as soon as data is manually exported in this one-way fashion, it becomes “outdated.”The “What Was, What Is, and What Is to Come”Ok, so this is where many firms are at today. They are using desktop GIS software and sharing data through a files-based workflow. That is to say, you are making data and maps and then either saving locally to your hard drive or maybe you are uploading the data to an internal server, ftp site, dropbox, etc. Some firms have taken this a step further and use our data interoperability tools or other ETL workflows to transfer data between GIS and CAD. Ultimately, the current workflow introduces some issues. It’s often a manual process that requires adjusting coordinates, projections and data schemas. It can be time consuming to the GIS team and can create frustration between teams that need GIS data fast. Since it’s file based, the data is alsostatic, so as soon as the GIS analyst creates the data and shares it with the CAD user, it is potentially out of date.The new workflow connects data using ArcGIS Online. The GIS team shares to the ArcGIS online organization, and the Autodesk user can discover that data. They can bring the GIS data into view, they can edit and save back, and they can even publish new datasets built in CAD such as as-builts. Again, this all happens leveraging Esri’s cloud and ArcGIS Online. In addition to making it easy to share data between the two systems, there are a couple other benefits worth noting.So, by connecting Autodesk users to the ArcGIS Online cloud, you are not only exposing them to data created by the GIS team, but you are also now connecting them to data sources from allover the world. These include the thousands of layers, maps and apps available in Esri’s Living Atlas of the world. That data is curated by Esri but authored by authoritative sources such as the USGS, NOOA, FEMA, EPA, Department of Interior, Bureau of Land Management, and so many others. In addition to the Living Atlas, users can also go out and connect to data services available in the open data hubs of counties and cities. This is a fairly new concept, but ever since the Digital Accountability and Transparency Act (DATA) was passed in 2013, government agencies have been publishing out data to the general public. That’s over 20,000 datasets about the earth being pushed out as a streaming hosted feature layer or similar. Users connected to ArcGIS Online will also have the ability to purchase premium data through the ArcGIS Marketplace – including things like high-resolution imagery, 3D city models and more.The Process and Getting Started.Logging in to ArcGIS Online:Open an internet browser and go to .ArcGIS online allows users to connect people, locations and data using interactive maps. Not only is there the ability to work with smart data and style-driven analysis tools, but also to share data around the world with multiple and specific groups.Next browse to the Content tab.The Contents pane lists the layers contained in a map or scene. You can manage the display of layers, symbology and other layer properties in the Contents pane. You control which layers are drawn in the map or scene at any given time using the check boxes next to the layer names.Add GIS content from your computer, the web, a cloud drive, or even an application.Specify data from your computer. Add Tags, Title and most importantly select “Publish this file as a hosted layer” (Critical for Data going into Civil 3D).For Example, Parcels, Waterline, Storm Sewers, Centerlines.Viewing the uploaded data in the Map Viewer.The results: the ability to share data with groups.Finding the Data…The Living Atlas.Building the Data…Gathering the content from multiple sources: water utilities, sewer, storm water, transportation.Save and Share the map so others can access it and use it.Launch the Civil 3D and select the Insert tabYou can bring ArcGIS datasets into your Civil 3D drawings using the Autodesk Connector for ArcGIS, save back edited content, and publish and export Civil 3D data for use in ArcGIS.Pick on the Icon for the Autodesk Connector for ArcGIS with Coordinate System in drawing. Search by location after logging into ArcGIS.Search Public, My content, My Groups, or My Organization for populated data after selecting the area of interest.If you have uploaded the content from a shapefile and maybe created a Feature Map of the Storm, Waterlines, Centerlines and/or Structures data then you can access it from the My Content, My groups or My Organization that you shared the data with from the tab in the upper left corner.Place a checkmark when selected, and a panel will come up that allows you to select the feature type in Civil 3D that will represent the Parcels, Storm, Waterlines, Centerlines and/or Structures data. Select the pull down and pick Points of Interest.Then select at the bottom in blue “Add to my design project,” and Civil 3D will package up the data, import and display it in your drawing.The Magic Begins…Guardians of the Galaxy: Autodesk Plus Esri - The Beginning!The beauty of it all is Schema e this dialog box to map attributes in ArcGIS data to pipe and structure properties in Civil 3D. This dialog box is displayed when you use the Autodesk ArcGIS Connector to bring in ArcGIS data as pipes and structures.You can also open this dialog box from within the Prospector item view. Select the pipe network in Prospector to display the item view, and then click in the Schema Mapping field of the item view.This dialog box will have a tab for each pipe or structure layer that you are bringing in to Civil 3D so you can define mapping parameters for each layer.Specifying schema mapping valuesYou can set up schema mapping to associate attributes that have been defined in ArcGIS data to pipe and structure properties that are used in Civil 3D.For example, if there is a field named Structure Height in the dataset, you can map that to the Structure Height property in Civil 3D so that the height value assigned to the part is the same height value defined in ArcGIS.Tip: If you are not familiar with the dataset, you can view the data in ArcGIS to see which attributes and attribute values are defined in it. The URL for the dataset is listed in the Autodesk Connector for ArcGIS window when you are selecting a dataset to bring into Civil 3D, and it is also listed in the Data Source Manager dialog box after the dataset has been brought into Civil 3D.If you want to bring in manholes, inlets and outfalls as Junction part types, you can set up the Value Mapping for the Part Type. For example, if attribute values Manhole, Inlet and Outfall were specified in the ArcGIS data to indicate the structure type, you can enter those values in the Value Mapping dialog box.You can include multiple values by separating them with a semicolon. For example, Manhole;Inlet;Outfall. Entries are not case-sensitive.Note: In the example above, all of these structures will be created in the drawing as generic Junction structures (with a Structure Type of <none>). You can manually set the Structure Type using the Structure Properties dialog box or you can use the Map Drainage Structure Parameters command to assign the Structure Type and other properties.You mean Civil 3D objects created from GIS D ata…WHAT!Progress….You mean Civil 3D objects created from GIS Data…WHAT!Data Sources Manager and Save Back:Use this dialog box to remove ArcGIS datasets from a drawing and save back changes to ArcGIS.Data imported and supported for saving back changes to ArcGIS:Some object types that are created by importing an ArcGIS dataset cannot be saved back to the original ArcGIS layer.To Publish Civil 3D Objects to ArcGIS:You can publish the following Civil 3D objects to ArcGIS: •Alignments•Feature lines•Parcels•Pipe networks•PointsTo publish to ArcGIS:Ensure that your drawing has a coordinate system assigned to it. If a coordinate system is not specified for the drawing, you will be prompted to assign one after selecting the Publish to ArcGIS command.Note: Some coordinate systems are not supported when publishing to ArcGIS.Click Output tab Publish panel Publish to ArcGIS.Each time you publish to ArcGIS you must specify a unique Service Name. To update previously published content, you can bring it into a Civil 3D drawing using the Autodesk Connector for ArcGIS, and then edit the objects and use the Save Back command to save the changes back to ArcGIS.Note: You can also delete the dataset on the ArcGIS website and then republish it. However, if the dataset has already been brought into Civil 3D drawings, deleting and republishing the dataset will not restore those links.After publishing the content to ArcGIS, use the Autodesk Connector for ArcGIS command to bring the dataset into a Civil 3D drawing.Edit the objects as needed.Use the Save Back command to save the dataset back to ArcGIS.Publishing requires an ArcGIS account with publishing privileges. For more information,see About ArcGIS Roles and Privileges.After you publish content, it is available from your My Content location in ArcGIS after you sign in.•Export to FGDB: Export InfraWorks features to a file geodatabase (FGDB) that can be used in ArcGIS. Specify the InfraWorks features to export and then specify thename and location for the file geodatabase. For more information, see To export toFDGB.The Export to FGDB tool saves the file geodatabase to a specified folder and does not require an ArcGIS account or publishing privileges.What about coordinate systems:•Before bringing ArcGIS data into a model with the Autodesk Connector for ArcGIS, install the ArcGIS Projection Engine Data. The Projection Engine Data preventsa coordinate offset from occurring when you bring ArcGIS data into a model.•To prevent a coordinate offset issue from occurring when you save back to ArcGIS, usea coordinate system that has an EPSG code.•To publish to ArcGIS and to export objects to a file geodatabase (FGDB), the model must use a supported coordinate system.Note: Some coordinate systems are not supported when publishing to ArcGIS or exporting to FGDB.If a model is assigned an unsupported coordinate system, publishing to ArcGIS or exporting to FGDB will not proceed.In addition, there are three categories of coordinate systems which are not supported: •Obsolete Coordinate Systems•Arbitrary X-Y Coordinate Systems•Test Only Coordinate SystemsIn ConclusionAutodesk and Esri have collaborated to provide native and live access to BIM information within a GIS environment, and – conversely – to provide the same native and live access to GIS information within a BIM environment. From the planning, designing, and building, to the operating and maintenance of infrastructure assets, bringing GIS and BIM together allows for a more frictionless, live, and native data flow between platforms in order to reduce risk, inefficiencies, data loss, and cycle times.Looking at the full lifecycle, planning, designing, building, and managing are best done in context. This requires an integrated and holistic approach where you are able to gain a better understanding by viewing vertical and horizontal infrastructure assets at various scales –understanding impacts at a larger scale, like statewide or county-wide, down to understanding impacts at the city-scale and also at the asset-level itself (building/infrastructure asset).So, by connecting Autodesk users to the ArcGIS Online cloud, you are not only exposing them to data created by the GIS team, but you are also now connecting them to data sources from all over the world. These include the thousands of layers, maps and apps available in Esri’s Living Atlas of the world. That data is curated by Esri but authored by authoritative sources such as the USGS, NOAA, FEMA, EPA, Department of Interior, Bureau of Land Management, and so many others. In addition to the Living Atlas, users can also go out and connect to data services available in the open data hubs of counties and cities.Autodesk Connector for ArcGIS with Civil 3DConnect GIS data to digital design models to make better decisions and deliver more resilient infrastructure projects.“The Autodesk Connector for ArcGIS is the first step toward realizing the vision of the partnership between Autodesk and Esri to integrate BIM and GIS workflows.”GIS Informs BIM; BIM Fuels GIS – by providing a real-world context of an asset’s existing environment within which designers and engineers can explore and evaluate design and construction.。

30 /arcuserBy Rex Hansen and Nick FurnessEach release since 100.0 in 2016 has tar-geted a variety of functional areas and in-dustry-specific needs. As this functionality has matured, existing users and partners have migrated from older Esri developer technology to the ArcGIS Runtime, new de-velopers have began using ArcGIS Runtime to add GIS and mapping to native apps, and developers who had been using other development tools have transitioned to ArcGIS Runtime to take advantage of the complete and robust platform available with ArcGIS.Since 100.6, each release has focused on three tracks: utilities, defense and public safety, and platform (i.e., crosscutting fea-tures that support ArcGIS functionality). The industries named in these tracks were the drivers for the development of this functionality, but the applications of those capabilities extend much more broadly to many industries.Utility NetworksNew capabilities enabled for use with online utility networks include two new trace types: loops and shortest path. Loops are areas of a network where resources can flow in either direction. They are expectedwith mesh networks but usually indicate error conditions in radial networks. Loops can be discovered using a shortest path trace. A shortest path trace identifies the shortest path between two points using a numeric network attribute or weight, such as length or cost.You can also filter elements returned from a trace to a specific asset type or output condition. If conditions are defined, every feature encountered during a trace is evalu-ated, and only elements that satisfy the con-ditions are included in the trace result.Trace results can now contain a union of all geometries of a type returned from a trace. This provides a more efficient option for displaying trace results on a map instead of iterating through multiple utility elements.Functions can now be included in a trace configuration and returned with trace re-sults, which allows you to run calculations on network attributes associated with traced features (e.g., the sum of the length of all the wire traced). Several functions can be specified for a trace. The trace function output gives you the trace function defini-tion (e.g., calculation type, network attrib-ute) as well as the function result.ArcGIS Runtime 100.9, also known as Update 9, continues to improve support for online workflows with utility networks, but also introduces key enhancements to the use of features, open data, offline maps, and raster capabilities.Version 4 of the ArcGIS Utility Network adds nonspatial object support, which enables use with telecom networks and underground electrical utilities. Nonspatial tables are now included with network sources and enumerations.Feature TilesFeature layers now use tile-based requests to fetch and display features in a map when supported by the feature service. Feature tiles enable feature layers in ArcGIS Runtime to load faster and return more features. Feature tiles use a protocol buffer binary format to reduce network latency and advanced HTTP caching semantics to improve performance. At this release, fea-ture tiles are not used to request features for display in a scene (3D).Branch Versioned Feature ServicesEnterprise geodatabases use versioning to accommodate the needs of multiuser edit-ing scenarios and long transactions. Branch versioning uses the Web GIS model to meet those needs via feature services. ArcGIS Runtime now supports branch versioning workflows through feature services. It canArcGIS Runtime 100.9 Has More Support for Feature Use, Open Data, and Offline Mapsbrowse the versions available on a feature service, choose a version to connect to or create a new one, and then display features from that version using feature layers. Edits made to the features in the feature layer are isolated to that version and protected from changes being made to other versions. ArcGIS Pro can be used to reconcile and post changes from different versions at the end of the editing process.Offline Feature-Linked AnnotationYou can now take feature-linked annotation offline from a sync-enabled feature service, add new features, update existing feature geometry and attributes, and view the au-tomatically positioned feature-linked anno-tation on the map. If you synchronize your changes with the online feature service, the annotation objects will be automati-cally updated on the server to reflect those changes. Other offline users can then syn-chronize with the feature service to obtain the updated feature-linked annotation. OGC API FeaturesThis release introduces support for OGC API Features, a new, open, multipart standard of the Open Geospatial Consortium Inc. (OGC) for sharing fea-ture data on the web. Part 1: Core of this standard describes basic capabilities for enabling read-only access to spatial data. Most of these capabilities are supported in ArcGIS Runtime and are accessible through new classes that represent an OGC feature service and feature service info as well as OGC feature tables and collections. Note that only manual cache mode is supported at this time, which means a developer must use the API to query and populate an OGC feature table with features from an OGC API Feature service.Offline MapsIn the 100.8 release, Esri delivered support for online layers in mobile map and scene packages. In the 100.9 release, a web map can now be taken offline while retaining layers that reference online services. When network connectivity is available, your app users can utilize these online services, but if there is no connection, users can keep working with their local content.A few years ago, Esri introduced support for preplanned workflows to optimize and streamline creating and delivering mapsTrace results in this example are filtered to show assets of type overhead singleand three phase switches and cabinet fuses.Developer's Sectionand data for offline use. A preplannedworkflow relies on map authors who createand publish map areas in ArcGIS Online orArcGIS Enterprise. Publishing a map areainvolves generating and storing new filesof map content, such as basemaps and fea-tures, for download.Generating and downloading a maparea can take some time. With this release,before you download the map area, youcan now check whether a map area’s pub-lishing process is complete, has failed, or isstill in progress.You can also take a map offline and avoidreceiving updates. This will disable datasynchronization on the map’s geodatabas-es and prevent associated feature servicesfrom creating synchronization replicas. Thebenefits of this option are that the burdenon the feature server is reduced, and youwill not need to unregister geodatabaseswhen they are no longer required.Mosaic RulesA mosaic rule defines how the individ-ual rasters are combined into a singlemosaicked image. With this release,mosaic rules defined in web maps, webscenes, mobile map packages, and mobile31/arcuserscene packages are honored while render-ing image service rasters. You can also override the default mosaic rules to control how overlapping areas in the mosaic are handled. In addition to how it’s displayed, the mosaic rules may affect values returned when identifying, computing a histogram, or exporting the image.Platform Improvements and ChangesNew locators were introduced with ArcGIS Pro 2.3 via the Create Locator tool and supported in ArcGIS Runtime 100.5. These locators consist of a *.loc file and *.loz file. These files are smaller, faster, easier to maintain, and offer consistency across the platform. 100.9 will be the last release to support classic geocode locators (thathave only a *.loc file), created in ArcGIS Prousing the Create Address Locator tool. Thischange only pertains to use of local loca-tors. There is no change to ArcGIS Runtimesupport for ArcGIS geocode services.For ArcGIS Runtime developers who useArcGIS Runtime Local Server, Esri has ex-tended the deprecation of ArcGIS Desktop10.x packages. Version 100.9 will be the lastrelease to support ArcGIS Desktop 10.xpackages that were created in ArcMap. Thenext ArcGIS Runtime Local Server versionwill require that packages be created withArcGIS Pro. ArcGIS Runtime Local Servercan be used with newer versions of theArcGIS Runtime SDKs for .NET, Java, and Qt.Esri has also introduced many more en-hancements to group layers, navigation,and scenes; continued to fix issues; im-proved performance, and enriched integra-tion within the platform. For more details,see the release notes at developers.esri.com for Android, iOS, Qt, .NET, and Java.Download and Get StartedTo get 100.9, go to the ArcGIS forDevelopers website (),and download the SDK of your choice. Youcan also reference it through developmenttools such as NuGet, Gradle, or CocoaPods.If you’re new to developing with ArcGISRuntime and don’t have an ArcGIS forDevelopers subscription, simply sign up fora free account and you’ll be able to accesseverything you need to develop your app.About the AuthorsRex Hansen is an Esri product managerfor ArcGIS Runtime. He has more than25 years of experience in GIS, spatial ana-lytics, and computer mapping. Recently,he has helped guide the development ofnative solutions and technologies in theGIS industry that use authoritative geo-spatial data in immersive, extended realityexperiences.Nick Furness is an Esri technical productmanager for ArcGIS Runtime SDKs foriOS and macOS. He has spent more than20 years working in GIS, building projectsthat have ranged from small mom-and-popsolutions to enterprise utility and nationalgovernment deployments. He presents atthe Esri Developer Summit, the Esri UserConference, and many other events, mostlyon ArcGIS Runtime SDKs.Sign up for a free account and access everything you need to develop your app. The grid shows tiles defined by a ArcGIS Runtime request for all features of this point feature layer from an ArcGIS feature service. This service represents usage of public transport by census tract in the northeastern United States./arcuser。