线在哪里?AR和GNSS对公用事业的增强感知

一个uthor: Renata Barradas Gutiérrez

通过10,794.6公里的高架线和地下电缆以及超过2,000公里的天然气管道系统的网络有效地分发电力和天然气是一项巨大的努力。Vorarlberger Energienetze GmbH(vorarlberg netz), is the electricity and natural gas network grid operator maintaining this network with a high level of supply reliability and excellent service quality in Vorarlberg, the westernmost state of Austria.

除了网络的扩展外，公司面临的一些挑战是地形，三分之二的土地区域位于山区，无法可视化线路，因为94％的电缆在地下。

“Knowing the position of these lines plays an important role in ensuring an uninterruptible supply. What sounds simple in theory often leads to challenges in practice. After completion of construction, power cables and pipelines aren’t visible on the surface. And after some time, even the most experienced employees can no longer answer the question of ‘where is the line?’”Vorarlberg Netz的GIS管理员兼开发人员Sebastian Drexel解释说。“This is one of the main reasons why each line is surveyed and centrally saved within the company’s GI-system. So far, restoring lines in nature has been a time-consuming task performed by specially-trained staff.”

Visualising utilities with survey-grade accuracy in 3D

To make the task of restoring lines easier, vorarlberg netz is using state-of-the-art Augmented Reality (AR) and GNSS. AR technology superimposes digital information on an environment providing actionable information to solve problems or a specific task. Combined with GNSS, users can visualise and position utilities with survey-grade accuracy.

Digitally visualising georeferenced utilities in 3D allows vorarlberg netz field staff to intuitively experience in real-time the underground supply infrastructure and enhance natural environments via smart devices. “Our service technicians are enthusiastic about the simple and intuitive visualisation that is possible through Augmented Reality,Drexel说。

Vorarlberg Netz使用了Leica GG04加上智能天线in combination withvGIS公用事业, a utility-grade AR system for ESRI ArcGIS designed for municipalities and public utility companies. The GG04 plus smart antenna collects high-accuracy geospatial data in real time, even in the most demanding locations without the need for a mobile data connection. The antenna also pairs with all existingLeica Zenohandhelds and a wide range of Android, iOS or Windows® smart devices.

To precisely position utilities, the team uses the GG04 plus withHXGN SmartNet, the world’s largest reference network, for open-standard correction service. The integration between vGIS and GG04 plus smart antenna enables access to NMEA metadata and survey-grade, few centimetre positioning. The vorarlberg netz team quickly and easily configured the GG04 plus GNSS smart antenna to be used with vGIS on a smartphone, tablet or Microsoft HoloLens.

“We opted for the Leica GG04 plus antenna, as it is relatively low-priced, small, handy and can be coupled with mobile devices. The last of these points is crucial since the AR software runs on an Android or iOS tablet or smartphone,”explains Drexel. “The combination of vGIS and GG04 plus is recommended due to the simple setup, the connection to the mobile device, reliability and the high accuracy of the products compared to the competition.”

AR和GEORECTECTED实用程序的应用和利益

vGIS, paired up with GNSS, allows users to ‘see’ GIS utilities in real time through the ground. This improves situational awareness, helps to locate utilities faster, with fewer errors, and in a safe manner. vorarlberg netz is currently using AR at a pilot stage to develop the know-how, search, validate, and introduce practical applications. Currently, the company is benefiting most from four different applications:

1. 检查建筑物或工厂覆盖物的供应路线以及沿线故障的位置。
2. Restoration of lines in nature before construction activities.
3. Location of resources that are not easily visible, e.g. shut-off devices covered by gravel or snow.
4. 向外部公司的协调和澄清建筑活动。

vorarlberg netz is also looking to integrate the visualisation of georeferenced utilities in combination with 3D models. The electricity and natural gas network grid operator uses a terrestrial laser scanning unit from Leica Geosystems to capture point cloud data of existing infrastructure which can further be converted to BIM models. This information is going to be the basis for the facility management, responsible for the maintenance of e.g. buildings or transformer stations.

“除了计划新对象外，还需要使用激光扫描仪收集库存数据，在我们公司中使用现代BIM技术。结合3D GIS数据，这为设施管理领域开辟了新的可能性，并以增强现实的可视化数字双胞胎的可视化。”says Andreas Mätzler, head of geoinformatics at vorarlberg netz.

Benefits of AR with GNSS for utilities include:

• Visualise GIS data in 3D on the fly to locate and find underground utilities.
• Spot faster and fix on the ground GIS data location issues, reducing collection costs.
• Improve route control for overcrowding, fouling and location of faults along cable routes.
• Simplify stakeout of cables by surveyors.
• Search and locate resources and subterranean infrastructure that are not readily visible, such as shut-off devices covered by gravel or snow.
• 改善现场协调和澄清严重工作。

提供多种服务来运输能源和天然气

尽管将电能和天然气从传输网络的进料点运输，而沃拉尔伯格·尼兹（Vorarlberg Netz）是母公司illwerke vkw AGalso performs general technical surveys, seabed surveys and engineering geodesy for tunnel advancing. For these endeavours, the company also uses Leica Geosystems solutions, including:

• Tachymeters
• GNSS receivers
• Levelling instruments
• Laser scanners

“我们使用Leica Geosystems产品来测bob综合app下载量电气和汽油管线以及为外部客户提供GIS服务的一部分，”explains Marco Ess, head of grid- and geoinformation at vorarlberg netz.