6 Works

LSMOD.2 - Global paleomagnetic field model for 50 -- 30 ka BP

Monika Korte & Maxwell Brown
Global spherical harmonic paleomagnetic field model LSMOD.2 describes the magnetic field evolution from 50 to 30 ka BP based on published paleomagnetic sediment records and volcanic data. It is an update of LSMOD.1, with the only difference being a correction to the geographic locations of one of the underlying datasets. The time interval includes the Laschamp (~41 ka BP) and Mono Lake (~34 ka BP) excursions. The model is given with Fortran source code to...

M. DELENAH Modelling Direct Economic LossEs caused by Natural Hazards

Stephanie Natho & Annegret Thieken
Version history:The current M DELENAH 1.1 is an updated version of M DELENAH with changes in the sectors agriculture, unpaved and paved roads, public sector and forest, and industry and commerce (correction of code comment only). Details of code updating are described in the User's Manual. Updates include (1) new features for the agricultural sector (specific livestock loss calculation based on a matrix where numbers of affected animals per type can be inserted), (2) correction...

Using real polar terrestrial gravimetry data to overcome the polar gap problem of GOCE - the gravity field model IGGT_R1C

Biao Lu, Christoph Förste, Franz Barthelmes, Svetozar Petrovic, Frank Flechtner, Zhicai Luo, Bo Zhong, Hao Zhou, Xiaolong Wang & Tangting Wu
With the successful completion of ESA's PolarGAP campaign, terrestrial gravimetry data (gravity anomalies) are now available for both polar regions. Therefore, it is now possible to overcome the GOCE polar gap by using real gravimetry data instead of some regularization methods. But terrestrial gravimetry data needs to become filtered to remove the high-frequency gravity information beyond spher. harm. degree e.g. 240 to avoid disturbing spectral leakage in the satellite-only gravity field models. For the gravity...

The gravity field model based on the second invariant of the GOCE gravitational gradient tensor: IGGT_R1

Biao Lu, Zhicai Luo, Bo Zhong, Hao Zhou, Christoph Förste, Franz Barthelmes, Frank Flechtner & Rui Zhou
IGGT_R1 is a static gravity field model based on the second invariant of the GOCE gravitational gradient tensor, up to degree and order 240. Based on tensor theory, three invariants of the gravitational gradient tensor (IGGT) are independent of the gradiometer reference frame (GRF). Compared to traditional methods for calculation of gravity field models based on GOCE data, which are affected by errors in the attitude indicator, using IGGT and least squares method avoids the...

LSMOD.1 - Global paleomagnetic field model for 50 -- 30 ka BP

Monika Korte, Maxwell Brown & Sydney Gunnarson
Global spherical harmonic paleomagnetic field model LSMOD.1 describes the magnetic field evolution from 50 to 30 ka BP based on published paleomagnetic sediment records and volcanic data. The time interval includes the Laschamp (~41 ka BP) and Mono Lake (~34 ka BP) excursions. The model is given with Fortran source code to obtain spherical harmonic magnetic field coefficients for individual epochs and to obtain time series of magnetic declination, inclination and field intensity from 49.95...

M. DELENAH Modelling Direct Economic LossEs caused by Natural Hazards

Stephanie Natho & Annegret Thieken
Version history:The current M DELENAH 1.1 is an updated version of M DELENAH with changes in the sectors agriculture, unpaved and paved roads, public sector and forest, and industry and commerce (correction of code comment only). Details of code updating are described in the User's Manual. Updates include (1) new features for the agricultural sector (specific livestock loss calculation based on a matrix where numbers of affected animals per type can be inserted), (2) correction...

Registration Year

  • 2017
    1
  • 2018
    3
  • 2019
    2

Resource Types

  • Model
    6

Data Centers

  • Geoforschungszentrum Potsdam
    6