GLORIA — GEOMAR Library Ocean Research Information Access

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Online Resource

MONARCH - Entwicklung und Modellierung einer neuen Testerarchitektur : Abschlußbericht Fördervorhaben MONARCH ; Laufzeit des Vorhabens/Berichtszeitraum: 01.11.2001 - 31.03.2003 (2003)

Lehmann, Andreas ; Schuster, Jens

Heilbronn : ATMEL Germany GmbH

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Keywords: Forschungsbericht

Type of Medium: Online Resource

Pages: Online-Ressource (18 p. = 129 KB) , graphs

URL: https://edocs.tib.eu/files/e01fb04/39399564X.pdf

URL: https://doi.org/10.2314/GBV:39399564X

URL: https://edocs.tib.eu/files/e01fb04/39399564Xl.pdf

DOI: 10.2314/GBV:39399564X

Language: German

Note: Contract BMBF 01M3057A. - Joint project no. 01021089 , Differences between the printed and electronic version of the document are possible , Also available as printed version , Systemvoraussetzungen: Acrobat reader.

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GEOMAR CATALOGUE

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Electronic Resource

Robotic Surgery Using Zeus™ MicroWrist™ Technology (2003)

Isgro, Frank ; Kiessling, Arndt-Holger ; Blome, Markus ; [et al.]

350 Main Street , Malden , MA 02148 , USA. , and 9600 Garsington Road , Oxford OX4 2DQ , UK . : Blackwell Science Inc

Journal of cardiac surgery 18 (2003), S. 0

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ISSN: 1540-8191

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Abstract Background: The use of computer-animated surgical instruments for various cardiac operations has been shown to be feasible, but to date, the available information regarding the operative and technical details of these procedures is still inadequate. Methods: We used the Zeus™ (Computer Motion Inc., Goleta, Calif, USA) telemanipulation system to perform the internal mammary artery (IMA) takedown in 56 patients, in 12 of whom we used the newest model with MicroWrist™ (Computer Motion Inc., Goleta, Calif, USA) technology. Port orientation was based on thoracic anatomy, the decisive landmarks being the mammillary line and the axillary line. The distance between ports was at least 9 cm, and the patient's arm was positioned with the left shoulder raised and angulated by not more than 90 degrees. Results: Mean setup time was 44 ± 18 minutes for the first five patients and 16 ± 7 minutes for the last five patients, with an overall average of 24 ± 12 minutes. IMA harvest time at the beginning reached a mean of 95 ± 23 minutes and decreased to 44 ± 18 minutes in the last five cases. Average IMA takedown time was 58 ± 17 minutes. The IMA was patent with a good flow in all 56 patients. Conclusions: The introduction of robotic technology into clinical routine has resulted in safe procedures with a short learning curve. However, basic training in the modality is a must in order to achieve technical excellence. (J Card Surg 2003; 18:1-5)

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1540-8191.2003.01901.x

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Paper (German National Licenses)

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Unusual water mass advection affected Central Baltic key species 1: Sprat and the summer inflow (2003)

Kraus, Gerd ; Möllmann, Christian ; Hinrichsen, Hans-Harald ; [et al.]

In: GLOBEC International Newsletter, 9 (2). pp. 27-28.

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Publication Date: 2019-09-23

Type: Article , NonPeerReviewed

Format: text

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The importance of water storage variations for water balance studies of the Baltic Sea (2001)

Lehmann, Andreas ; Hinrichsen, Hans-Harald

Elsevier

In: Physics and Chemistry of The Earth Part B-Hydrology Oceans and Atmosphere, 26 (5-6). pp. 383-389.

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Publication Date: 2019-09-23

Description: The closing of the water and energy cycle of the Baltic Sea is one of the main aims of BALTEX (Baltic Sea Experiment), which particularily focuses on the exploration, modelling and quantification of the various processes determining the space and time variability of the energy and water budget. On the long-term mean the water budget of the Baltic Sea is determined by river runoff, net precipitation (precipitation minus evaporation) and the in- and outflows through the Baltic Sea entrance area, assuming that the mean sea level remains constant, i.e. the ability of the Baltic Sea to store a huge amount of water is averaged out over the long-term period. For shorter periods, the water storage which can be expressed by the mean sea level plays an important role on the water budget. The objective of the present study is to investigate the variability of the water storage of the Baltic Sea and relate its fluctuations to the different components of the water balance equation. The anomaly of the mean sea level of the Baltic Sea shows a well pronounced seasonal cycle, with negative values between the end of February to the end of June (minimum in the middle of May), and positive anomalies from July to mid-February (maximum in January). There is a high correlation between the mean sea level expressed by the Landsort tide gauge and the local atmospheric conditions over the Baltic Sea. The annual course of the total water balance is controlled by the local atmospheric conditions with the net fresh-water inflow only controls the general outflow conditions. Sea level, precipitation and river runoff have been obtained from observations provided by the SMHI. For the in- and outflow through the entrance area of the Baltic Sea and evaporation over the open ocean, coupled sea ice-ocean model simulations for a 10-years period have been utilized.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/S1464-1909(01)00023-5

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Sea-level variations in the Baltic Sea: consistency of geodetic observations and oceanographic models (2002)

Novotny, K. ; Liebsch, G. ; Dietrich, R. ; [et al.]

Springer

In: In: Vistas for geodesy in the new millennium: IAG 2001 scientific assembly, Budapest, Hungary, September 2 - 7, 2001. , ed. by Schwarz, A. Springer, Berlin, pp. 493-498.

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Publication Date: 2016-06-17

Type: Book chapter , NonPeerReviewed

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On the wind driven and thermohaline Circulation of the Baltic Sea (2000)

Lehmann, Andreas ; Hinrichsen, Hans-Harald

Elsevier

In: Physics and Chemistry of The Earth Part B-Hydrology Oceans and Atmosphere, 25 (2). pp. 183-189.

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Publication Date: 2017-01-03

Description: The wind driven and thermohaline circulation of the Baltic Sea and the exchange with the North Sea are investigated by using a coupled sea ice-ocean model of the Baltic Sea. Four consecutive years, namely 1992, 1993, 1994 and 1995 including the latest major Baltic inflow in January 1993 have been simulated. Atmospheric forcing and river runoff was prescribed from SMHI data bases. Data assimilation was utilized by merging hydrographic field measurements with model data. From 6 hourly analysis data 4-year averages of the 3-dimensional current and mass field have been calculated. Some aspects regarding the mean circulation, its stability and the thermohaline circulation especially where the turnover is happening are discussed from model results analysis.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/S1464-1909(99)00140-9

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On the thermohaline variability of the Baltic Sea (2000)

Lehmann, Andreas ; Hinrichsen, Hans-Harald

Elsevier

In: Journal of Marine Systems, 25 (3-4). pp. 333-357.

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Publication Date: 2019-09-23

Description: A coupled ice–ocean model is utilized to investigate the transports of heat, salt and water in the Baltic Sea for the years 1986, 1988, 1993 and 1994. The oceanic component of the coupled system is a three-dimensional baroclinic model of the Baltic Sea including the Belt Sea and the Skagerrak/Kattegat area. The model has a horizontal resolution of ∼5 km and 28 vertical levels specified. The ice model is based on the Hamburg Sea Ice model, with the same horizontal resolution. The coupled system is driven by atmospheric data provided by the Swedish Meteorological and Hydrological Institute (SMHI; Norrköping, Sweden) and river runoff taken from a monthly mean runoff database. The thermohaline variability of the Baltic Sea strongly depends on the fluctuations of the atmospheric forcing conditions. Therefore, high demands on the spatial and temporal resolution of the meteorological forcing are required. Besides heat and radiation fluxes, precipitation and evaporation rates have to be taken into account. From the coupled runs, the different components determining the energy and water cycle of the Baltic Sea are identified and estimates of the water, heat and salt transports are given for the different years. Furthermore, the thermohaline variability is investigated with respect to the relevant forcing mechanisms including atmospheric, as well as fresh water fluxes. Besides the heat and water fluxes of the Baltic Sea and the water mass exchange with the North Sea, internal fluxes of heat, salt and volume between the different subbasins of the Baltic Sea are presented. Sensitivity studies on the variation of the net fresh water flux indicate that uncertainties in precipitation and/or river runoff can have a strong impact on the inflow of highly saline water from the North Sea, thus, influencing the thermohaline circulation of the Baltic Sea.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/S0924-7963(00)00026-9

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Modelling the exceptional Baltic Sea inflow events in 2002-2003 (2004)

Lehmann, Andreas ; Lorenz, P. ; Jacob, D.

AGU (American Geophysical Union)

In: Geophysical Research Letters, 31 . L21308.

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Publication Date: 2018-03-21

Description: During 2002 and 2003 exceptional inflow events have been registered. In January 2003 a massive inflow of highly saline, cold and extremely oxygen‐rich water from the North Sea was recorded at Darss Sill. This event is considered to be the most important inflow since 1993. A coupled model system for the Baltic Sea region, called BALTIMOS, was developed in the frame of DEKLIM/BALTEX by linking existing model components for the atmosphere (model REMO), for the ocean including sea ice (model BSIOM), for the hydrology (model LARSIM) as well as for lakes. The model system consists of high resolution model components: 1/6° (∼18 km) with 20 vertical levels; ocean‐ice 5 km with 60 vertical levels, hydrology 1/6°. The model domain covers the whole drainage basin of the Baltic Sea as well as major parts of Europe. The exceptional inflow events have been simulated successfully with BALTIMOS. The simulation was initialized at 1st of February 2002 and the model has been run until October 2003. This period includes the exceptional warm water inflow in autumn 2002 and the major Baltic inflow in January 2003. Different inflow characteristics are presented and discussed. The simulated volume transport for the major inflow in January 2003 amounts to about 250 km3, half of which was of salinity 17 PSU which corresponds to a salt transport of 2.7 × 1012 kg.

Type: Article , PeerReviewed

Format: text

DOI: 10.1029/2004GL020830

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Effects of remote and local atmospheric forcing on the circulation and upwelling in the Baltic Sea (2001)

Lehmann, Andreas ; Krauß, Wolfgang ; Hinrichsen, Hans-Harald

Taylor & Francis

In: Tellus A: Dynamic meteorology and oceanography, 54 (3). pp. 299-316.

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Publication Date: 2019-09-23

Description: Due to the ephemeral nature of the atmospheric conditions over the Baltic Sea, the flow field is highly variable, and thus, changes in the resulting circulation and upwelling are difficult to observe. However, three-dimensional models, forced by realistic atmospheric conditions and river runoff, have reached such a state of accuracy that the highly fluctuating current field and the associated evolution of the temperature and salinity field can be described. In this work, effects of remote and local atmospheric forcing on circulation and upwelling in the Baltic Sea are investigated. Changes in the characteristics of the large-scale atmospheric wind field over the central and eastern North Atlantic can be described by the North Atlantic Oscillation (NAO). The NAO is related to the strength and geographical position of weather systems as they cross the North Atlantic and thus has a direct impact on the climate in Europe. To relate the local wind field over the Baltic Sea to the large-scale atmospheric circulation, we defined a Baltic Sea Index (BSI), which is the difference of normalised sea level pressures between Oslo in Norway and Szczecin in Poland. The NAO is significantly related to the BSI. Furthermore, the BSI is highly correlated with the storage variation of the Baltic Sea and the volume exchange through the Danish Sounds. Based on three-dimensional model calculations, it is shown that different phases of the NAO during winter result in major changes of horizontal transports in the deep basins of the Baltic Sea and in upwelling along the coasts as well as in the interior of the basins. During NAO+ phases, strong Ekman currents are produced with increased up- and downwelling along the coasts and associated coastal jets, whereas during NAO− phases, Ekman drift and upwelling are strongly reduced, and the flow field can almost entirely be described by the barotropic stream function. The general nature of the mean circulation in the deep basins of the Baltic Sea, obtained from a 10-yr model run, can be described by the depth integrated vorticity balance derived from the transport equation for variable depth.

Type: Article , PeerReviewed

Format: text

DOI: 10.1034/j.1600-0870.2002.00289.x

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Long-term modelling of the Baltic Sea - Application of 3-D ocean models - In Long-Term Oceanographic modelling of the Baltic Sea (2001)

Lehmann, Andreas

Göteborg Universität, Earth Science Centre

In: Göteborg Universität, Earth Science Centre, Göteborg, 81 pp.

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Publication Date: 2020-03-31

Type: Report , NonPeerReviewed

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