196,148 research outputs found
[Portrait of A. M. Huger]
A. M. Huger wearing lab coat, seated at laboratory table. Cabinent and microscope are near him.All images created by or supplied to the Society of Invertebrate Pathology for use in publications and promotion. Content in Description field provided by text on verso or accompanying documentation
[Portrait of A. M. Huger]
A. M. Huger wearing lab coat, seated at laboratory table. Cabinent and microscope are near him.All images created by or supplied to the Society of Invertebrate Pathology for use in publications and promotion. Content in Description field provided by text on verso or accompanying documentation
Southern Pictures and Pencillings correspondence
This 9-page series of correspondence is between A. M. Huger to the editor of Southern Pictures and Pencillings. Within weeks of organizing the Appalachian National Park Association, the association adopted the magazine, “Southern Pictures and Pencillings.” The publication was produced by A. H. McQuilkin, a Chicago-based editor who moved to Asheville, North Carolina in the mid-1890s and became involved with the association. A.M. Huger of Hendersonville, North Carolina wrote under the pen name, Chucky Joe
Editorials: News & Courier
In promoting a national park in the southern Appalachians, the association submitted dozens of editorials to newspapers and magazines throughout the east coast. After the editorials were published, the Appalachian National Park Association often reprinted and circulated them as part of their promotional campaign. This series of editorials was printed in the Charleston News and Courier and were written by A. M. Huger who wrote under the pseudonym “Chucky Joe.
Southern Pictures and Pencillings subscription
The Appalachian National Park Association was formed in 1899 for the purpose of promoting the idea of a national park in the eastern U.S. In this 4-page communique of written within weeks of its organization, the association adopted the magazine, “Southern Pictures and Pencillings,” as the official organ of the association. The publication was produced by A. H. McQuilkin, a Chicago-based editor who moved to Asheville, North Carolina in the mid-1890s and became involved with the association. This subscription was made on behalf of A.M. Huger of Hendersonville, North Carolina
Detection of False Positive and False Negative Samples in Semantic Segmentation
Rottmann M, Maag K, Chan RK-W, Huger F, Schlicht P, Gottschalk H. Detection of False Positive and False Negative Samples in Semantic Segmentation. In: 2020 Design, Automation & Test in Europe Conference & Exhibition (DATE). IEEE; 2020: 1351-1356
Controlled False Negative Reduction of Minority Classes in Semantic Segmentation
Chan RK-W, Rottmann M, Huger F, Schlicht P, Gottschalk H. Controlled False Negative Reduction of Minority Classes in Semantic Segmentation. In: 2020 International Joint Conference on Neural Networks (IJCNN). IEEE; 2020: 1-8
The Ethical Dilemma When (Not) Setting up Cost-Based Decision Rules in Semantic Segmentation
Chan RK-W, Rottmann M, Dardashti R, Huger F, Schlicht P, Gottschalk H. The Ethical Dilemma When (Not) Setting up Cost-Based Decision Rules in Semantic Segmentation. In: 2019 IEEE/CVF Conference on Computer Vision and Pattern Recognition Workshops (CVPRW). IEEE; 2019: 1395-1403
Dr. Duane M. Jackson, Morehouse College, July 2011
This video is a conversation with Dr. Duane M. Jackson. Dr. Jackson talks about his paper, "Recall and the Serial Position Effect: The Role of Primacy and Recency on Accounting Students' Performance." Jackie Daniel, AUC Woodruff Library, is the interviewer
CMOS detectors for space applications: from R&D to operational program with large volume foundry
Nowadays, CMOS image sensors are widely considered for space applications. The use of CIS (CMOS Image sensor)
processes has significantly enhanced their performances such as dark current, quantum efficiency and conversion gain. However, in order to fulfil specific space mission requirements, dedicated research and development work has to be performed to address specific detector performance issues. This is especially the case for dynamic range improvement through output voltage swing optimisation, control of conversion gain and noise reduction. These issues have been addressed in a 0.35μm CIS process, based on a large volume CMOS foundry, by several joint ISAE- EADS Astrium R&D programs. These results have been applied to the development of the visible and near-infrared multi-linear imager for the SENTINEL 2 mission (LEO Earth observation mission for the Global Measurement Environment and Security program). For this high performance multi-linear device, output voltage swing improvement is achieved by process optimisation done in collaboration with foundry. Conversion gain control is also achieved for each spectral band by managing photodiode capacitance. A low noise level at sensor output is reached by the use of an architecture allowing Correlated Double Sampling readout in order to eliminate reset noise (KTC noise). KTC noise elimination reveals noisy pixels due to RTS noise. Optimisation of transistors’s dimensions, taking into account conversion gain constraints, is done to minimise these noisy pixels. Additional features have been also designed: 1) Due to different integration times between spectral bands required by mission, a specific readout mode was developed in order to avoid electrical perturbations during the integration time and readout. This readout mode leads to specific power supply architecture. 2)Post processing steps can be achieved by alignment marks design allowing a very good accuracy. These alignment marks can be used for a black coating deposition between spectral bands (pixel line) in order to minimise straight lighteffects. In conclusion a review of design improvements and performances of the final component is performed
- …
