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#seismicnetwork — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #seismicnetwork, aggregated by home.social.

  1. How to best design and improve a microseism monitoring network in an urban environment?

    Through an optimization program, Keil et al. find the optimal number and distribution of seismic stations for an urban area with heterogeneous noise conditions:

    seismica.library.mcgill.ca/art

    #Seismology #EarthquakeScience #DiamondOpenAccess #Earthquake #OpenAccess #OpenScience #Munich #optimization #seismicmonitoring #seismicnetwork

  2. How to best design and improve a microseism monitoring network in an urban environment?

    Through an optimization program, Keil et al. find the optimal number and distribution of seismic stations for an urban area with heterogeneous noise conditions:

    seismica.library.mcgill.ca/art

    #Seismology #EarthquakeScience #DiamondOpenAccess #Earthquake #OpenAccess #OpenScience #Munich #optimization #seismicmonitoring #seismicnetwork

  3. How to best design and improve a microseism monitoring network in an urban environment?

    Through an optimization program, Keil et al. find the optimal number and distribution of seismic stations for an urban area with heterogeneous noise conditions:

    seismica.library.mcgill.ca/art

    #Seismology #EarthquakeScience #DiamondOpenAccess #Earthquake #OpenAccess #OpenScience #Munich #optimization #seismicmonitoring #seismicnetwork

  4. How to best design and improve a microseism monitoring network in an urban environment?

    Through an optimization program, Keil et al. find the optimal number and distribution of seismic stations for an urban area with heterogeneous noise conditions:

    seismica.library.mcgill.ca/art

    #Seismology #EarthquakeScience #DiamondOpenAccess #Earthquake #OpenAccess #OpenScience #Munich #optimization #seismicmonitoring #seismicnetwork

  5. How to best design and improve a microseism monitoring network in an urban environment?

    Through an optimization program, Keil et al. find the optimal number and distribution of seismic stations for an urban area with heterogeneous noise conditions:

    seismica.library.mcgill.ca/art

    #Seismology #EarthquakeScience #DiamondOpenAccess #Earthquake #OpenAccess #OpenScience #Munich #optimization #seismicmonitoring #seismicnetwork

  6. Discover how Kennett et al. achieved successful seismic wave correlation despite non-ideal noise source distributions. Their insights on optimizing interstation geometries benefit Large-N arrays and Distributed Acoustic Sensing (DAS) arrays.

    read it here: doi.org/10.26443/seismica.v2i2

    #Seismology #EarthquakeScience #DiamondOpenAccess #Earthquake #OpenAccess #OpenScience #seismicnetwork #Seismicnoise #DAS

  7. Discover how Kennett et al. achieved successful seismic wave correlation despite non-ideal noise source distributions. Their insights on optimizing interstation geometries benefit Large-N arrays and Distributed Acoustic Sensing (DAS) arrays.

    read it here: doi.org/10.26443/seismica.v2i2

    #Seismology #EarthquakeScience #DiamondOpenAccess #Earthquake #OpenAccess #OpenScience #seismicnetwork #Seismicnoise #DAS

  8. Discover how Kennett et al. achieved successful seismic wave correlation despite non-ideal noise source distributions. Their insights on optimizing interstation geometries benefit Large-N arrays and Distributed Acoustic Sensing (DAS) arrays.

    read it here: doi.org/10.26443/seismica.v2i2

    #Seismology #EarthquakeScience #DiamondOpenAccess #Earthquake #OpenAccess #OpenScience #seismicnetwork #Seismicnoise #DAS

  9. Discover how Kennett et al. achieved successful seismic wave correlation despite non-ideal noise source distributions. Their insights on optimizing interstation geometries benefit Large-N arrays and Distributed Acoustic Sensing (DAS) arrays.

    read it here: doi.org/10.26443/seismica.v2i2

    #Seismology #EarthquakeScience #DiamondOpenAccess #Earthquake #OpenAccess #OpenScience #seismicnetwork #Seismicnoise #DAS

  10. Discover how Kennett et al. achieved successful seismic wave correlation despite non-ideal noise source distributions. Their insights on optimizing interstation geometries benefit Large-N arrays and Distributed Acoustic Sensing (DAS) arrays.

    read it here: doi.org/10.26443/seismica.v2i2

    #Seismology #EarthquakeScience #DiamondOpenAccess #Earthquake #OpenAccess #OpenScience #seismicnetwork #Seismicnoise #DAS

  11. Alexandre Plourde introduces new methods for accurately estimating earthquake rates, especially useful when there are variations in seismometer coverage over time and space, including an adjusted maximum likelihood estimator for b-value.

    Read it here: doi.org/10.26443/seismica.v2i2

    #seismology #earthquakescience #DiamondOpenAcces #earthquake #OpenAccess #openscience #seismicnetwork #seismiccatalogue #bvalue

  12. Alexandre Plourde introduces new methods for accurately estimating earthquake rates, especially useful when there are variations in seismometer coverage over time and space, including an adjusted maximum likelihood estimator for b-value.

    Read it here: doi.org/10.26443/seismica.v2i2

    #seismology #earthquakescience #DiamondOpenAcces #earthquake #OpenAccess #openscience #seismicnetwork #seismiccatalogue #bvalue

  13. Alexandre Plourde introduces new methods for accurately estimating earthquake rates, especially useful when there are variations in seismometer coverage over time and space, including an adjusted maximum likelihood estimator for b-value.

    Read it here: doi.org/10.26443/seismica.v2i2

    #seismology #earthquakescience #DiamondOpenAcces #earthquake #OpenAccess #openscience #seismicnetwork #seismiccatalogue #bvalue

  14. Alexandre Plourde introduces new methods for accurately estimating earthquake rates, especially useful when there are variations in seismometer coverage over time and space, including an adjusted maximum likelihood estimator for b-value.

    Read it here: doi.org/10.26443/seismica.v2i2

    #seismology #earthquakescience #DiamondOpenAcces #earthquake #OpenAccess #openscience #seismicnetwork #seismiccatalogue #bvalue

  15. Alexandre Plourde introduces new methods for accurately estimating earthquake rates, especially useful when there are variations in seismometer coverage over time and space, including an adjusted maximum likelihood estimator for b-value.

    Read it here: doi.org/10.26443/seismica.v2i2

    #seismology #earthquakescience #DiamondOpenAcces #earthquake #OpenAccess #openscience #seismicnetwork #seismiccatalogue #bvalue

  16. Evangelidis et al. image the western edge of the Aegean Shear Zone using the South Evia 2022-2023 Seismic Sequence.

    They identify the activation of a NW-SE fault structure, emphasizing the urgency for better seismic network coverage in the region.

    Read: seismica.library.mcgill.ca/art

    #seismology #earthquake #Aegean #faultstructure #strikeslip #seismicnetwork #machinelearning #seismichazard

  17. Evangelidis et al. image the western edge of the Aegean Shear Zone using the South Evia 2022-2023 Seismic Sequence.

    They identify the activation of a NW-SE fault structure, emphasizing the urgency for better seismic network coverage in the region.

    Read: seismica.library.mcgill.ca/art

    #seismology #earthquake #Aegean #faultstructure #strikeslip #seismicnetwork #machinelearning #seismichazard

  18. Evangelidis et al. image the western edge of the Aegean Shear Zone using the South Evia 2022-2023 Seismic Sequence.

    They identify the activation of a NW-SE fault structure, emphasizing the urgency for better seismic network coverage in the region.

    Read: seismica.library.mcgill.ca/art

    #seismology #earthquake #Aegean #faultstructure #strikeslip #seismicnetwork #machinelearning #seismichazard

  19. Evangelidis et al. image the western edge of the Aegean Shear Zone using the South Evia 2022-2023 Seismic Sequence.

    They identify the activation of a NW-SE fault structure, emphasizing the urgency for better seismic network coverage in the region.

    Read: seismica.library.mcgill.ca/art

    #seismology #earthquake #Aegean #faultstructure #strikeslip #seismicnetwork #machinelearning #seismichazard

  20. Evangelidis et al. image the western edge of the Aegean Shear Zone using the South Evia 2022-2023 Seismic Sequence.

    They identify the activation of a NW-SE fault structure, emphasizing the urgency for better seismic network coverage in the region.

    Read: seismica.library.mcgill.ca/art

    #seismology #earthquake #Aegean #faultstructure #strikeslip #seismicnetwork #machinelearning #seismichazard