Refine
Year of publication
- 2020 (113) (remove)
Document Type
- Article (peer reviewed) (35)
- Conference Proceeding (25)
- Contribution to a Periodical (25)
- Part of a Book (17)
- Book (7)
- Other (3)
- Report (1)
Is part of the Bibliography
- no (113)
Keywords
- Betreuung (5)
- IFRS (5)
- Kindergarten (5)
- Kita (5)
- Kleinstkinder (5)
- Krippe (5)
- Brandschutz (4)
- Kita-Management (4)
- Bauproduktenrecht (3)
- Bioökonomie (3)
Institute
- Fakultät für Angewandte Gesundheits- und Sozialwissenschaften (28)
- Fakultät für Holztechnik und Bau (14)
- Fakultät für Ingenieurwissenschaften (13)
- Zentrum für Forschung, Entwicklung und Transfer (10)
- Fakultät für Angewandte Natur- und Geisteswissenschaften (7)
- Fakultät für Betriebswirtschaft (6)
- Fakultät für Informatik (3)
- Fakultät für Chemische Technologie und Wirtschaft (2)
- Fakultät für Sozialwissenschaften (2)
- Forschung und Entwicklung (1)
Holz statt Braunkohle
(2020)
Holz statt Braunkohle
(2020)
Mobile-access edge clouds provide distributed com-pute capacities for low-latency applications. 5G technology willpave the way for such mobile deployment scenarios. In thispaper, we propose an edge cloud infrastructure that supportslow-latency video analysis connected with bandwidth reductionfor a moving group of persons. As example, we consider a mobilebody camera scenario that monitors the situation in a certain areaand transmits it to an operations center. Our discussion focuseson three aspects: mobility support, low-latency video processing,and bandwidth reduction. For this, we propose a mobile edgecloud infrastructure with a central cloud. In order to optimizevideo processing we optimize the edge cloud device assignmentof the cameras depending on their movement by reassigning itto another cloud device. This requires live migration of ongoingvideo analysis between edge devices. Finally we discuss the useof a mobile central cloud.
Plastic waste is one of the biggest growing factors contributing to environmental pollution. So far there has been no established method to detect and identify plastics in environmental matrices. Thus, a method based on their characteristic fluorescence behavior is used to investigate whether plastics can be detected and identified in tap water under laboratory conditions. The experiments show that the identification of plastics as a function of water depth is possible. As the identification becomes more difficult with higher water depths, investigations with a highly sensitive imaging method were carried out to obtain an areal integration of the fluorescent light and thus better results.
A novel approach to optically distinguish plastics based on fluorescence lifetime measurements
(2020)
In medical and biological research, fluorescence lifetime measurements and fluorescence lifetime imaging is already a part of the standardized analysis procedures. As first investigations have shown, polymers can be identified using fluorescence lifetime imaging and an evaluation algorithm. Thus, this contribution pursues a novel approach for the direct differentiation of four polymers with fluorescence lifetime imaging. Therefore, the evaluation algorithm is extended to compare several fluorescence lifetime images to prove that a distinction is possible.
A novel approach to optically distinguish plastics based on fluorescence lifetime measurements
(2020)