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ENTROPY-SWITZ

ISSN:

1099-4300

Disciplines
(Field of Science):

  • Information and communication technology (Engineering and Technology)
  • Biomedical engineering (Engineering and Technology)
  • Civil engineering and transport (Engineering and Technology)
  • Environmental engineering, mining and energy (Engineering and Technology)
  • Astronomy (Natural sciences)
  • Computer and information sciences (Natural sciences)
  • Chemical sciences (Natural sciences)
  • Physical sciences (Natural sciences)

Ministry points: Help

Ministry points
2020 100 Ministry Scored Journals List 2019
Ministry points
Year Points List
2020 100 Ministry Scored Journals List 2019
2019 100 Ministry Scored Journals List 2019
2018 30 A
2017 30 A
2016 30 A
2015 30 A
2014 30 A
2013 30 A
2012 30 A
2011 30 A

Model:

Open Access

Punkty CiteScore:

Punkty CiteScore
2018 2.78
Punkty CiteScore
Year Points
2018 2.78
2017 2.41
2016 1.87

Impact Factor:

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Publishing policy:

Pre-print
author's version of the article before the review
Post-print
author's version of the article after the review

Status table SHERPA RoMEO

Status table SHERPA RoMEO
RoMEO color Archiving policy
Green can archive pre-prints and post-prints or a version of the publisher
Blue can archive post-prints
Yellow can archive pre-prints
White can not archive any materials
Gray unknown

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total: 6

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Catalog Journals

2020
  • Changes of Conformation in Albumin with Temperature by Molecular Dynamics Simulations
    Publication
    • P. Weber
    • P. Bełdowski
    • K. Domino
    • D. Ledziński
    • A. Gadomski

    - ENTROPY-SWITZ - 2020

    This work presents the analysis of the conformation of albumin in the temperature range of 300K – 312K, i.e., in the physiological range. Using molecular dynamics simulations, we calculate values of the backbone and dihedral angles for this molecule. We analyze the global dynamic properties of albumin treated as a chain. In this range of temperature, we study parameters of the molecule and the conformational entropy derived from...

    Full text available

2018
  • Entropy Production Associated with Aggregation into Granules in a Subdiffusive Environment
    Publication
    • P. Weber
    • P. Bełdowski
    • M. Bier
    • A. Gadomski
    • B. Piotr

    - ENTROPY-SWITZ - 2018

    We study the entropy production that is associated with the growing or shrinking of a small granule in, for instance, a colloidal suspension or in an aggregating polymer chain. A granule will fluctuate in size when the energy of binding is comparable to k_{B}T, which is the “quantum” of Brownian energy. Especially for polymers, the conformational energy landscape is often rough and has been commonly modeled as being self-similar...

    Full text available

2015
  • Entropic Measures of Complexity of Short-Term Dynamics of Nocturnal Heartbeats in an Aging Population
    Publication
    • D. Makowiec
    • A. Kaczkowska
    • D. Wejer
    • M. Żarczyńska-Buchowiecka
    • Z. Struzik

    - ENTROPY-SWITZ - 2015

    Two entropy-based approaches are investigated to study patterns describing differences in time intervals between consecutive heartbeats. The first method explores matrices arising from networks of transitions constructed following events represented by a time series. The second method considers distributions of ordinal patterns of length three, whereby patterns with repeated values are counted as different patterns. Both methods provide...

    Full text in external service

  • Entropy Measures in the Assessment of Heart Rate Variability in Patients with Cardiodepressive Vasovagal Syncope
    Publication

    - ENTROPY-SWITZ - 2015

    Sample entropy (SampEn) was reported to be useful in the assessment of the complexity of heart rate dynamics. Permutation entropy (PermEn) is a new measure based on the concept of order and was previously shown to be accurate for short, non-stationary datasets. The aim of the present study is to assess if SampEn and PermEn obtained from baseline recordings might differentiate patients with various outcomes of the head-up tilt test...

    Full text in external service

  • Exergy Losses in the Szewalski Binary Vapor Cycle
    Publication

    In this publication, we present an energy and exergy analysis of the Szewalski binary vapor cycle based on a model of a supercritical steam power plant. We used energy analysis to conduct a preliminary optimization of the cycle. Exergy loss analysis was employed to perform a comparison of heat-transfer processes, which are essential for hierarchical cycles. The Szewalski binary vapor cycle consists of a steam cycle bottomed with...

2013

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