5 research outputs found
Управление подбором менеджеров среднего звена в организации (на материале деятельности ООО "ИНКОМ АВТО")
Цель исследования - разработать рекомендации по организации подбора менеджеров среднего звена в ООО "ИНКОМ АВТО".
Объект - управление персоналом в ООО "ИНКОМ АВТО".
В результате исследования были рассмотрены теоретические основы организации подбора и отбора персонала, рассмотрен подбор персонала как функция управления и область влияния на деятельность компании.The purpose of the research is to develop recommendations on the organization of selection of mid-level managers in INCOM AUTO LLC.
Object - personnel management in OOO INCOM AUTO.
As a result of the research, the theoretical foundations of the organization of recruitment and selection of personnel were considered, the selection of personnel as a function of management and the scope of influence on the company's activities were considered
Disentangled Latent Speech Representation for Automatic Pathological Intelligibility Assessment
Speech intelligibility assessment plays an important role in the therapy of
patients suffering from pathological speech disorders. Automatic and objective
measures are desirable to assist therapists in their traditionally subjective
and labor-intensive assessments. In this work, we investigate a novel approach
for obtaining such a measure using the divergence in disentangled latent speech
representations of a parallel utterance pair, obtained from a healthy reference
and a pathological speaker. Experiments on an English database of Cerebral
Palsy patients, using all available utterances per speaker, show high and
significant correlation values (R = -0.9) with subjective intelligibility
measures, while having only minimal deviation (+-0.01) across four different
reference speaker pairs. We also demonstrate the robustness of the proposed
method (R = -0.89 deviating +-0.02 over 1000 iterations) by considering a
significantly smaller amount of utterances per speaker. Our results are among
the first to show that disentangled speech representations can be used for
automatic pathological speech intelligibility assessment, resulting in a
reference speaker pair invariant method, applicable in scenarios with only few
utterances available.Comment: Submitted to INTERSPEECH202
Magnetic Resonance in Medicine 000:000–000 (2011) Ultrashort Echo Time Imaging Using Pointwise Encoding Time Reduction With Radial Acquisition (PETRA)
Sequences with ultrashort echo times enable new applications of MRI, including bone, tendon, ligament, and dental imaging. In this article, a sequence is presented that achieves the shortest possible encoding time for each k-space point, limited by pulse length, hardware switching times, and gradient performance of the scanner. In pointwise encoding time reduction with radial acquisition (PETRA), outer k-space is filled with radial half-projections, whereas the centre is measured single pointwise on a Cartesian trajectory. This hybrid sequence combines the features of single point imaging with radial projection imaging. No hardware changes are required. Using this method, 3D images with an isotropic resolution of 1 mm can be obtained in less than 3 minutes. The differences between PETRA and the ultrashort echo time (UTE) sequence are evaluated by simulation and phantom measurements. Advantages of pointwise encoding time reduction with radial acquisition are shown for tissue with a T2 below 1 ms. The signal to noise ratio and Contrast-tonoise ratio (CNR) performance, as well as possible limitations of the approach, are investigated. In-vivo head, knee, ankle, and wrist examples are presented to prove the feasibility of the sequence. In summary, fast imaging with ultrashort echo time is enabled by PETRA and may help to establish new routine clinical applications of ultrashort echo time sequences. Magn Reso
Magnetic Resonance in Medicine 67:510–518 (2012) Ultrashort Echo Time Imaging Using Pointwise Encoding Time Reduction With Radial Acquisition (PETRA)
Sequences with ultrashort echo times enable new applications of MRI, including bone, tendon, ligament, and dental imaging. In this article, a sequence is presented that achieves the shortest possible encoding time for each k-space point, limited by pulse length, hardware switching times, and gradient performance of the scanner. In pointwise encoding time reduction with radial acquisition (PETRA), outer k-space is filled with radial half-projections, whereas the centre is measured single pointwise on a Cartesian trajectory. This hybrid sequence combines the features of single point imaging with radial projection imaging. No hardware changes are required. Using this method, 3D images with an isotropic resolution of 1 mm can be obtained in less than 3 minutes. The differences between PETRA and the ultrashort echo time (UTE) sequence are evaluated by simulation and phantom measurements. Advantages of pointwise encoding time reduction with radial acquisition are shown for tissue with a T2 below 1 ms. The signal to noise ratio and Contrast-tonoise ratio (CNR) performance, as well as possible limitations of the approach, are investigated. In-vivo head, knee, ankle, and wrist examples are presented to prove the feasibility of the sequence. In summary, fast imaging with ultrashort echo time is enabled by PETRA and may help to establish new routine clinical applications of ultrashort echo time sequences. Magn Reso
Focus/detector system of an x-ray apparatus for generating phase contrast recordings
A focus/detector system of an X-ray apparatus and a method for generating projective or tomographic phase contrast recordings, are disclosed. In an embodiment of the system, the system includes a beam source equipped with a focus and a focus-side source grating, arranged in the beam path and generates a field of ray-wise coherent X-rays, a grating/detector arrangement having a phase grating and grating lines arranged parallel to the source grating for generating an interference pattern, and a detector having a multiplicity of detector elements arranged flat for measuring the position-dependent radiation intensity behind the phase grating. Finally, the detector elements are formed by a multiplicity of elongate scintillation strips, which are aligned parallel to the grating lines of the phase grating and have a small period, whose integer multiple corresponds to the average large period of the interference pattern which is formed by the phase grating