All Stories

  1. Test rig for validating the integrated motion measurement of flexible beams
  2. Validating the Integrated Motion Measurement of Flexible Beams
  3. SOFIA performance improvements through active mass damping
  4. On the heritage of Kurt Magnus in gyro technology
  5. 60 Symposia on Inertial Sensors and Systems: A Remarkable Series in the Course of Time
  6. Comparison of the North Finding Capability of several MEMS IMUs of Different Performance Grades
  7. On the Influence of Sample Rate, Calibration, and Allan Variance Parameters on the Accuracy of ZUPT-Based Pedestrian Navigation with MEMS IMUs
  8. Reevaluation of Algorithmic Basics for ZUPT-based Pedestrian Navigation
  9. INTEGRATION OF PHOTOGRAMMETRY, COMPUTED TOMOGRAPHY AND ENDOSCOPY FOR GYROSCOPE 3D DIGITIZATION
  10. PHOTOGRAMMETRY AND COMPUTED TOMOGRAPHY POINT CLOUD REGISTRATION USING VIRTUAL CONTROL POINTS
  11. Making Historical Gyroscopes Alive—2D and 3D Preservations by Sensor Fusion and Open Data Access
  12. Stability analysis of intrinsic camera calibration using probability distributions
  13. Reactivation of the active mass damping system for SOFIA to improve image stability
  14. The MICADO first light imager for the ELT: relay optics opto-mechanical design
  15. Making Historical Gyroscopes Alive – 2D and 3D Preservations by Sensor Fusion and Open Data Access
  16. COMPUTED TOMOGRAPHY DATA COLOURING BASED ON PHOTOGRAMMETRIC IMAGES
  17. Gyrolog – Creating a 3-Dimensional Digital Collection of Classical Gyro Instruments
  18. ISS 2019 Editors Preface
  19. Gyrolog - Developing a Digital Collection of Gyro Instruments for Historical and Didactical Research
  20. Gyrolog — Towards VR Preservations of Gyro Instruments for Historical and Didactical Research
  21. The MICADO first light imager for ELT: derotator design status and prototype results
  22. A new finite element model of the SOFIA primary mirror cell to investigate dynamical behavior
  23. Increasing the SOFIA Secondary Mirror Mechanism's fast steering capability by identification of a structural resonance and its subsequent elimination through mass re-distribution
  24. The Machine of Bohnenberger: Inertial link between astronomy, navigation, and geodesy
  25. About Motion Measurement in Sports Based on Gyroscopes and Accelerometers—an Engineering Point of View
  26. Multi-stage parameter identification of structural models from experimental data of varying assembly levels
  27. About Motion Measurement in Sports Based on Gyroscopes and Accelerometers – An Engineering Point of View
  28. Design of a large image derotator for the E-ELT instrument MICADO
  29. SOFIA design history
  30. Characterization of the mechanical properties of the SOFIA secondary mirror mechanism in a multi-stage approach
  31. Sensor fusion based vibration estimation using inertial sensors for a complex lightweight structure
  32. The integrated motion measurement simulation for SOFIA
  33. SOFIA pointing history
  34. The Machine of Bohnenberger
  35. Integrated motion measurement illustrated by a cantilever beam
  36. SOFIA in operation: telescope performance during the early science flights
  37. Die Maschine von Bohnenberger: 200. Geburtstag des kardanisch gelagerten Kreisels
  38. The Machine of Bohnenberger: Bicentennial of the Gyro with Cardanic Suspension
  39. SOFIA telescope modal survey test and test-model correlation
  40. SOFIA in operation: status of the telescope in-flight commissioning
  41. The Bohnenberger machine
  42. Integrated Motion Measurement for Flexible Structures using a Modal and Krylov Subspace Model Reduction Approach
  43. Integrated measurement system using accelerometers and gyros as peripheral sensors to estimate the motional state of an elastic beam
  44. Dynamic positioning of a floating structure
  45. Kompensation der Lagefehler der Inertialsensoren in einer IMU
  46. Integrated Motional Measurement for a Flexible Structure
  47. Analysis of critical motions of floating structures
  48. Abstracts from the 6th international conference on the Engineering of Sport, 10–14 July 2006, Olympic Hall, Munich, Germany
  49. Employing Modern Elements of Vehicle Navigation for Integrated Motion Measurement in Sport
  50. INTEGRATED MOTION MEASUREMENT OF MULTIBODY SYSTEMS AND FLEXIBLE VEHICLE STRUCTURES
  51. GNSS/INS integration: still an attractive candidate for automatic landing systems?
  52. Integrated motion measurement of rigid multibody systems
  53. Applying the principle of integrated navigation systems to estimating the motion of large vehicles
  54. Adapting the Principle of Integrated Navigation Systems to Measuring the Motion of Rigid Multibody Systems
  55. Integrating satellite and inertial navigation—conventional and new fusion approaches
  56. Verallgemeinerung der kinematischen Modelle integrierter Navigationssysteme
  57. Integrating Satellite and Inertial Navigation-Conventional and New Fusion Approaches
  58. Short Lecture Sessions
  59. Three-Axes Gyro System Quantifying the Specific Balance of Rowing