Category Archives: General info

FFB November Experiment (from 2019-11-18 to 2019-11-22)

Location:
Geophysical Observatory Fürstenfeldbruck
Ludwigshöhe 8, D-82256 Fürstenfeldbruck

FOSREM team is doing a part of the active seismic experiment. All groups installed above 40 sensors and sensors matrix. FOSREM installed four fibre optics sensors – two FOS3 and two FOS5.
See our devices installed in the field.

Power&Communication Units (inside the tent) and two FOS3 sensors (in the hole)

FOS5 and FOS3 inside the bunker.

 

IWGoRS 5th, Sun Moon Lake, Taiwan – we will be here!

IWGoRS 5th International Working Group on Rotational Seismology Sun Moon Lake, Taiwan 2019/09/22 – 26

The 5th IWGoRS workshop will be held at the Teacher’s Hostel, Sun Moon Lake, Taiwan, from September 22-26, 2019. Institute of Earth Sciences, Academia Sinica (IES) will be the local host. The workshop will cover on all aspects of rotational seismology including (but not limited to):

  • instrumentation (portable sensors, ring lasers, tilt correction, etc)
  • observation of rotations (application domains, best practices)
  • array seismology (gradients, strains, rotations)
  • data processing, wavefield interpolation, phase separation
  • earthquake physics
  • volcano seismology
  • ocean-bottom observations
  • earthquake engineering
  • seismic inverse problems

With the advance of portable rotation sensor, we expect more rotation observations will be shown in the workshop.

New FOSREM FOS-5 sensor

The FOS-5 sensor contains a complete fibre-optic Sagnac interferometer with 250 mm diameter fiber-optics loop, analog to  digital conversion circuits, FPGA based digital processing unit for close-loop operation, power conversion and management parts. All of these are placed in a robust case, meeting the IP67 requirements.
This internal digital processing unit provides rotation speed (Omega) value directly in digital form. The FOS-5 has an RS-485 interface for data and USB interface for diagnostic. The connection provides data transmission and power supply from PCU over only one, standard M12 cable within the distance of 500 meters.

4th IWGoRS Meeting in Tutzing, Germany, 20-23 June, 2016

The 4th IWGoRS workshop were held at the Evangelische Akademie Tutzing (near Munich, Germany), June 20-23, 2016. The workshop was focus on any aspect of rotational ground motion including the recording of rotations, instrumentation, earthquake sources, non-standard rheologies, inverse problems, geodesy, earthquake engineering, long-period seismology, array-derived rotation, noise-correlation studies, ring laser technology, Earth’s rotation, problems of fundamental physics and others.

Our team  has prepared one oral presentation and two-day demonstration of mobile Fosrem System in action.  The presentation given by Prof. Leszek R. Jaroszewicz is avaiable here. Also Fosrem System data sheet is avaiable for download.

New portable, multipoint measuring system for Earthquake physics, Volcanology, Geophysical exploration, Civil engineering

Our team announces that new mobile FOG sensor FOS2/3 is ready for operation. We have done several tests, simulating different types of earthquakes and standard waves.

It’s a mobile, fiber-optic system, based on Sagnac interferometer for monitoring rotational events and phenomena. The sensor device is optimized for measurement of the rotational rate with sensitivity equal to 2*10E-8 rad/s/Hz in pass band from DC to 327,68 Hz. The above mentioned sensitivity as well as rotation rate dynamic range up to 10 rad/s covers weak as well as strong rotational motions connected with irregular object movements, occurring during strong winds, tectonic moves and earthquakes. In this way, the developed system is dedicated to monitoring the rotational vibration in such objects as wind power plants, tall irregular buildings, bridges, and unstable grounds as well as rotational events connected with earthquakes.

 The data sheet is avaiable here.

7EWICS, Opole, Poland, October 2014

On October, 17-18th 2014 Leszek Jaroszewicz, Anna Kurzych and Jerzy Kowalski participated in the Seventh European Workshop on the Seismic Behaviour of Irregular and Complex Structures (7EWICS)  in Opole, Poland.

Since 1996, the European Workshop on the seismic behaviour of Irregular and Complex Structures (EWICS) has been taking place every three years under the auspices of Working Group (WG) 8 (Seismic Behaviour of Irregular and Complex Structures) of EAEE. The last Workshop, held in 2011 in Haifa, has about 40 papers included in the proceedings published by Springer. Its success confirms the interest of the scientific community in the covered topics.

Professor Leszek Jaroszewicz presented a paper “Fibre-Optic System for Rotational Events &  Phenomena Monitoring: construction, investigation and area of application”. We also presented a poster and Fiber Optics Rotational Sensor in action. It was the debut FOSREM system in action.

3IWGoRS Conference, Christchurch, New Zealand, September 2013

The FOSREM team of scientists (Jaroszewicz L, Krajewski Z, Kowalski J.) participated in the 3rd International Workshop on Rotational Seismology (3IWGoRS) in Christchurch, New Zealand. This workshop was organized by the University of Canterbury in Christchurch.

Professor Leszek Jaroszewicz showed a presentation on “Fiber Optics System for Rotational Events&Phenomena Monitoring”. Zbigniew Krajewski and Jerzy Kowalski showed an infographic of the technical implementations of FOSREM rotational sensors.

The FOSREM Project has started

The start of FOSREM project began in Agust 2011. The Military University od Technology and m-Soft Sp. z o. o. signed an consortium agreement. The goal of the consortium is to develop a supersensitive rotational motion sensors.

We outline the development and the application in a field test of the Autonomous Fibre-Optic Rotational Seismograph (AFORS), which utilizes the Sagnac effect for a direct measurement of the seismic-origin rotations of the ground. The main advantage of AFORS is its complete insensitivity to linear motions, as well as a direct measurement of rotational components emitted during seismic events.