Litcius/Paper detail

Temporal calibration and synchronization of robotic total stations for kinematic multi-sensor-systems

Tomas Thalmann, Hans Neuner

2020Journal of Applied Geodesy16 citationsDOI

Abstract

Abstract Despite the increasing interest in kinematic data acquisition, Robotic Total Stations (RTSs) are still relatively seldom used. No matter if Mobile Mapping Systems or Control & Guidance, GNSS is mostly used as position sensor, which limits the application to outdoor areas. For indoor applications, a combination of relative sensors is usually employed. One reason why RTSs are not used is the challenging time referencing and synchronization. In this work we analyze the challenges of a synchronized kinematic application of RTSs and present solutions. Our approach is based on a wireless network synchronization to establish a precise temporal reference frame. The achievable synchronization quality is thoroughly examined. In addition we develop a kinematic model of spherical measurements, that incorporates timing related parameters. To estimate these parameters we propose a temporal calibration utilizing an industrial robot. Both parts of our approach are evaluated using a test setup of two total stations, proofing an overall synchronization accuracy of 0.2 ms. An overall horizontal kinematic point accuracy of 2.3 mm reveals the potential of sufficiently synchronized RTSs.

Topics & Concepts

KinematicsComputer scienceSynchronization (alternating current)GNSS applicationsReal-time computingReal Time KinematicCalibrationPosition (finance)Wireless sensor networkFrame (networking)SimulationGlobal Positioning SystemTelecommunicationsChannel (broadcasting)MathematicsClassical mechanicsFinanceStatisticsComputer networkEconomicsPhysicsNetwork Time Synchronization TechnologiesIndoor and Outdoor Localization TechnologiesEnergy Efficient Wireless Sensor Networks