Southern California Edison uses Autodesk® Infrastructure Modeler software in their operations center to manage smart meters. This class will show and tell how utilities can integrate Autodesk visualization tools with their smart meter systems to effectively manage smart meters in their network. You will learn how you can use Infrastructure Modeler to visualize various meter events and to empower operations personnel to direct work in finding resolutions to issues.
All levels of utility employees who are responsible for the operation of their smart grid infrastructure
A Software architect for 20 years with extensive consulting experience in Geographic Information Systems (GIS) and related technologies. Ram has delivered successful projects in utility industry and has the experience of the whole project life cycle. He is experienced in delivering projects for Telecom, Utilities, Banking and Airline industries. He has a strong database and enterprise GIS integration technology background. He has extensive background in integrating enterprise systems using open standards and middleware technology.
Previn Wong has been a web programmer for 12 years, with GIS web development the last 10 of the years. He has worked for several governmental agencies and has knowledge of several GIS software. Previn is currently an Systems Analyst for Southern California Edison (SCE), a utility provider for the Southern California region. He helps maintain and develop a GIS system to provide visualization of all SCE assets.
GDF SUEZ Energy Romania specializes in providing natural gas to over 1.3 million consumers, all through an immense and intricate pipeline network covering 16,000 kilometers. In 2007, GDF Romania embarked on creating a new and more efficient network for the natural gas pipeline. Initiated from scratch and managed with the company’s internal resources and equipment, the collection of field data related to the pipeline distribution would take two years to complete and would be contained within a single, centralized database. The team made extensive use of AutoCAD Map 3D Enterprise software (formerly Topobase™) in regional offices, created a web platform on Autodesk® Infrastructure Map Server to share the information across the company (more than 600 users), and worked closely with Autodesk Consulting to create the best and safest asset management system possible. This class will help you to better understand the challenges and the key factors of this successful implementation.
Esta clase ilustran cómo se puede establecer una infraestructura de SIG integral y los procesos relacionados con el software Autodesk® Infrastructure Map Server y AutoCAD Map 3D para gestionar los activos y la infraestructura de manera efectiva. Vamos a describir cómo Autocad Map 3D se utiliza para capturar los componentes activos digitales y Autodesk Raster Design para los activos análogos, para crear la data de activos espaciales y cómo Autodesk Infrastructure Map Server nos ayuda a mostrar, informar y analizar estos activos. También mostraremos los flujos de trabajo establecidos entre Autocad Map 3D, Autodesk Infrastructure Map Server y Oracle®, sin aplicación externas. Se incluirá toda la vizualización, actualización y gestión desde dispositivos móviles.
This class will present the challenges that were encountered, the methods that were used to overcome the challenges, and the successes that were achieved while migrating a medium-sized municipal electric utility to AutoCAD Map 3D Enterprise software. Independence Power and Light (IPL) in Independence, Missouri, underwent a full system migration with Autodesk Consulting this year. That migration included replacing many homegrown and legacy systems with modern Autodesk technology as well as integration with and interfaces to other systems vital to the utility. Autodesk Consulting performed a full system assessment and worked closely with IPL to develop a road map to successfully make these changes.
Desarrollo de una solución utilizando AutoCAD® Map y Mapguide (AIMS) que permite la visualización y sociabilización en línea de la Información Catastral tanto gráfica como alfanumérica vía Web.
Transformamos y realizamos la carga inicial de información de un formato dng y una base de datos relacional de Oracle, al nuevo formato Object Relational de Oracle Spatial a través de AutoCAD Map, este proceso contempla todos los tipos de objectos almacenados, tales como: Polígonos, Polígonos Disjuntos, Polígonos con áreas huecas, Líneas y puntos.
Utilizando FDO realizamos la conexión a Oracle y en MapGuide Studio utilizamos esta información para publicarla.
In this class, you will learn about using Autodesk Infrastructure Map Server software to build targeted-focus applications. We will demonstrate some modifications to fusion templates (from out of the box) that can lead to a better user experience for end users. One case study shows how we used custom Autodesk Infrastructure Map Server API code to create a simple workflow to assign inspection planning. Another case study highlights a simple interface for customer service representatives to view power outages in the service territory.
This class explores the configuration of GeoREST, which is used to add, view, and edit data—both spatial and the attributes of most spatial data types. Using Autodesk® Infrastructure Map Server 2013, users will be able to digitize onscreen and save the spatial data directly to the original data files or database.
In this class, we will focus on geospatial solutions for utilities based on enterprise industry models in Autodesk® Infrastructure Map Server and Autodesk AutoCAD® Map 3D software. In several steps, we will demonstrate all important aspects of building a rich GIS solution using as an example a project for a large water and wastewater group in the Czech Republic. We will cover the project from the migration of five different geospatial solutions into one Autodesk platform to actual activities in integration with external customer relations management (CRM) and maintenance systems. One of the top benefits of this solution is full or partial automation of network statement processes, starting with collecting electronic statement requests from a public site, automatically evaluating them in GIS, and responding in cooperation with CRM and internal processes. This process, as well as additional automation possibilities, will be described and demonstrated on a real example.