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改进科技教育和科研工作--一位德国学者的几点看法
(1997)
信息时代的制造业及信息的价值 任守
(1995)
ドイツで学んだ研究の方法と働き方
(2018)
Projektmanagement im Mittelstand? Häufig Fehlanzeige, seufzen Beobachter. Mit modernen Methoden der Projektabwicklung, wie sie sich seit vielen Jahren etwa in Konzernen bewährt haben, wollen mittelständische Unternehmen wenig zu tun haben. Doch Vorsicht! Professor Uwe Braehmer warnt vor Pauschalurteilen. Einige Mittelständler beherrschen meisterhaft die Klaviatur des Projektmanagements. Andere erkennen derzeit neue Geschäftschancen durch Projektmanagement. Und wieder andere brauchen ein dem Mittelstand speziell angepasstes Projektmanagement. Professor Uwe Braehmer weiß: „Auf viele mittelständische Geschäftsführer wirkt Projektmanagement zu akademisch und zu groß dimensioniert.“ Bedarfsgerecht gestaltet könne es im Mittelstand eine wesentlich breitere Akzeptanz finden.
Öffentliche Finanzen 1987
(1988)
Zwischenbericht über die regionalen Gesundheitsinformationsdatenbanken (gid) in Baden-Württemberg
(1999)
Zusatzstoffe im Obstbau
(2003)
Routing Attacks are a serious threat to communication in tactical MANETs. TOGBAD is a centralised approach, using topology graphs to detect such attacks. In this paper, we present TOGBAD's newly added wormhole detection capability. It is an adaptation of a wormhole detection method developed by Hu et al. This method is based on nodes' positions. We adapted it to the specific properties of tactical environments. Furthermore, we present simulation results which show TOGBAD's performance regarding the detection of wormhole attacks.
Wissenschaftliches Rechnen
(1999)
The ability to breathe air represents a fundamental step in vertebrate evolution that was accompanied by several anatomical and physiological adaptations. The morphology of the air-blood barrier is highly conserved within air-breathing vertebrates. It is formed by three different plies, which are represented by the alveolar epithelium, the basal lamina, and the endothelial layer. Besides these conserved morphological elements, another common feature of vertebrate lungs is that they contain a certain amount of fluid that covers the alveolar epithelium. The volume and composition of the alveolar fluid is regulated by transepithelial ion transport mechanisms expressed in alveolar epithelial cells. These transport mechanisms have been reviewed extensively. Therefore, the present review focuses on the properties and functional significance of the alveolar fluid. How does the fluid enter the alveoli? What is the fate of the fluid in the alveoli? What is the function of the alveolar fluid in the lungs? The review highlights the importance of the alveolar fluid, its volume and its composition. Maintenance of the fluid volume and composition within certain limits is critical to facilitate gas exchange. We propose that the alveolar fluid is an essential element of the air-blood barrier. Therefore, it is appropriate to refer to this barrier as being formed by four plies, namely (1) the thin fluid layer covering the apical membrane of the epithelial cells, (2) the epithelial cell layer, (3) the basal membrane, and (4) the endothelial cells.