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Philosophy of GodForm:Power Authorities, Functional Position Levels, Religion and Science
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作者 Refet Ramiz 《Journal of Philosophy Study》 2021年第3期166-215,共50页
In this work,author expressed new R-Synthesis specifically.Good and/or correct perspective that must be behind the definitions and administration generally expressed.New perspective of the philosophy explained general... In this work,author expressed new R-Synthesis specifically.Good and/or correct perspective that must be behind the definitions and administration generally expressed.New perspective of the philosophy explained generally.Philosophy of GodForm is defined and expressed as connected/related with the following concepts:(a)basic principles,(b)17 upper constructional philosophies,(c)14 lower constructional philosophies,(d)eight basic philosophies.As special cases,Philosophy of Engineering and Technology,Philosophy of Wireless Administration and others defined as hybrid philosophies.17 specific components/units which can be considered to define the basic principles of the related formation,are proposed to be designed by GodForm and defined by the author.Philosophy of GodForm and its relation with Values and Positions specifically defined.New Era Theory and New Era Belief explained generally.Some specific religions/beliefs are defined as variants/forms of the Progressive Religion.Good and/or correct power authorities(R-Power Authority)are defined due to 29 categories.Functional position levels defined for the R-Power Authorities with a unique table.As result of the R-Synthesis,functional position levels of some philosophers,some scientists,and of Prophet Jesus,Prophet Mohamed,Prophets Mouses,Buddha,and of Confucius generally/specifically defined.Integration and past/present effects of some R-Power Authorities in 5 x 5 Ideal Political Construction specifically explained.New Era Belief,Concepts of GodX and Science relation explained with the following concepts:(1)Religion of GodForm,(2)Knowledge of GodX,(3)Nature of GodX.With this respect,some other characteristics of 7 GodX power authorities expressed with details as complementary information.Following concepts/systems defined to arrange and solve some/most/all religious problems,which are determined with R-Synthesis:(a)Religious Responsibilities and Positions,(b)Ideal Religious Administration,(c)Sustainable/Continuable Political Administration System,(d)Community Values Council/Authority for each world country,(e)Progressive Councils.15 general religious position categories defined to express their good and/or correct meanings/values/responsibilities in the religious system.21 general/specific cases/programs defined due to New Era Belief to solve possible past/present/future community values problems,to have continuous,judicious,and progressive administration about the 36 kinds of community values.Progressive Councils,which are related with the CUS-WW-HO,are defined.Progressive Religion Council and some of the related religious responsibilities expressed for the kind progressive religion studies due to the Philosophy of Progressive Religions. 展开更多
关键词 PHILOSOPHY New Era Philosophy Philosophy of GodX philosophy of religion religion and science New Era Theory New Era Belief Progressive Religions power authorities functional position levels
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Carrier phase-based ionospheric observables using PPP models
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作者 Yan Xiang Yang Gao +1 位作者 Junbo Shi Chaoqian Xu 《Geodesy and Geodynamics》 2017年第1期17-23,共7页
The ionosphere is one of the major error sources in Global Navigation Satellite System (GNSS) posi- tioning, navigation and timing. Estimating the ionospheric delays precisely is of great interest in the GNSS commun... The ionosphere is one of the major error sources in Global Navigation Satellite System (GNSS) posi- tioning, navigation and timing. Estimating the ionospheric delays precisely is of great interest in the GNSS community. To date, GNSS observables for ionospheric estimation are most commonly based on carrier phase smoothed code measurements. However, leveling errors, which affect the performance of ionospheric modeling and differential code bias (DCB) estimation, exist in the carrier phase smoothed code observations. Such leveling errors are caused by the multipath and the short-term variation of DCB. To reduce these leveling errors, this paper investigates and estimates the ionospheric delays based on carrier phase measurements without the leveling errors. The line-of-sight ionospheric observables with high precision are calculated using precise point positioning (PPP) techniques, in which carrier phase measurements are the principal observables. Ionosphere-free and UofC PPP models are applied and compared for their effectiveness to minimize the leveling errors. To assess the leveling errors, single difference of ionospheric observables for a short baseline is examined. Results show that carrier phase- derived ionospheric observables from PPP techniques can effectively reduce the leveling errors. Furthermore, we compared the PPP ionosphere estimation model with the conventional carrier phase smoothed code method to assess the bias consistency and investigate the biases in the ionospheric observables. 展开更多
关键词 Differential code bias(DCB)Bias consistencyIonospheric observablePrecise point positioning (PPP)Leveling errors
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Prognostic value of combination of ST-segment elevation in lead aVR and positive cTnI in patients with non-ST- segment elevation acute coronary syndrome 被引量:1
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作者 张晓晖 曾伟 《South China Journal of Cardiology》 CAS 2017年第1期73-78,共6页
Background Non-ST-segment elevation acute coronary syndrome (NSTE-ACS) is an acute heart disease caused by incomplete occlusion of related coronary arteries with unstable atherosclerotic plaques. Lead aVR ST- segmen... Background Non-ST-segment elevation acute coronary syndrome (NSTE-ACS) is an acute heart disease caused by incomplete occlusion of related coronary arteries with unstable atherosclerotic plaques. Lead aVR ST- segment elevation and cTnI positive are closely correlated to the prognosis of NSTE-ACS patients. However, there are few studies applying the two predictors to early risk stratification in NSTE-ACS patients. Method Two hundred and five cases of NSTE-ACS patients followed up for 6 months after discharge were reviewed. All patients were divided into four groups: Group A-cTnI negative combined with aVR-non-ST-segment elevation group (100 cases) ; Group B-cTnI negative combined with aVR-ST-segment elevation group (31 cases) ; Group C-cTnI positive combined with aVR-non-ST-segment elevation group (43 cases) ; Group D-cTnI positive combined with aVR-ST-segment elevation group (31 cases). There was no significant difference in gender, age, old myocardial infarction, previous PCI history, hypertension, and diabetes between aVR-ST elevation group and no aVR-ST elevation group. The morbidity of left main or three-vessel coronary artery disease as well as adverse cardiovascular events in the four groups were observed and analyzed. Results (i) The morbidity of left main or three-vessel coronary artery disease was highest in Group D (87.1%) , and was markedly higher in Group B (41.9%) than that in Group A (7%) or Group C (9.3%) ; (ii) The incidence of adverse cardiovascular events was highest in Group D (77.4%), and was much higher in B (35.5%) as compared with that tin Group A (1%) or group C (7%). Conclusion Electrocardiographic lead aVR ST-segment elevation combined with cTnI positive has an important clinical value in predicting the prognosis of the patients with NSTE-ACS. 展开更多
关键词 acute coronary syndrome non-ST-segment elevation lead aVR positive cTnI level
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