In this research, it considers the manipulative influence of mass communication on the society especially in the formation of moral panic in times of social-politics crisis--Revolution of Dignity (November 2013-Febru...In this research, it considers the manipulative influence of mass communication on the society especially in the formation of moral panic in times of social-politics crisis--Revolution of Dignity (November 2013-February 2014) and during social-political stability. An attempt was made to determine the mechanism of implementation of this phenomenon in these periods the example of the news program "Facts" on ICTV channel and news on the TV channel "1+1". The author makes two models of moral panic mechanism's formation: during the period of sociopolitical stability and in the period of sociopolitical crisis. Furthermore, it identifies the comparative characteristics of moral panic formation during the period of the sociopolitical stability and sociopolitical crisis.展开更多
The European Sentinel missions and the latest generation of the United States Landsat satellites provide new opportunities for global environmental monitoring.They acquire imagery at spatial resolutions between 10 and...The European Sentinel missions and the latest generation of the United States Landsat satellites provide new opportunities for global environmental monitoring.They acquire imagery at spatial resolutions between 10 and 60 m in a temporal and spatial coverage that could before only be realized on the basis of lower resolution Earth observation data(>250 m).However,images gathered by these modern missions rapidly add up to data volume that can no longer be handled with standard work stations and software solutions.Hence,this contribution introduces the TimeScan concept which combines pre-existing tools to an exemplary modular pipeline for the flexible and scalable processing of massive image data collections on a variety of(private or public)computing clusters.The TimeScan framework covers solutions for data access to arbitrary mission archives(with different data provisioning policies)and data ingestion into a processing environment(EO2Data module),mission specific pre-processing of multi-temporal data collections(Data2TimeS module),and the generation of a final TimeScan baseline product(TimeS2Stats module)providing a spectrally and temporally harmonized representation of the observed surfaces.Technically,a TimeScan layer aggregates the information content of hundreds or thousands of single images available for the area and time period of interest(i.e.up to hundreds of TBs or even PBs of data)into a higher level product with significantly reduced volume.In first test,the TimeScan pipeline has been used to process a global coverage of 452,799 multispectral Landsat–8 scenes acquired from 2013 to 2015,a global data-set of 25,550 Envisat ASAR radar images collected 2010–2012,and regional Sentinel–1 and Sentinel–2 collections of∼1500 images acquired from 2014 to 2016.The resulting TimeScan products have already been successfully used in various studies related to the large-scale monitoring of environmental processes and their temporal dynamics.展开更多
文摘In this research, it considers the manipulative influence of mass communication on the society especially in the formation of moral panic in times of social-politics crisis--Revolution of Dignity (November 2013-February 2014) and during social-political stability. An attempt was made to determine the mechanism of implementation of this phenomenon in these periods the example of the news program "Facts" on ICTV channel and news on the TV channel "1+1". The author makes two models of moral panic mechanism's formation: during the period of sociopolitical stability and in the period of sociopolitical crisis. Furthermore, it identifies the comparative characteristics of moral panic formation during the period of the sociopolitical stability and sociopolitical crisis.
基金The authors also thank the European Space Agency(ESA)for funding the project“Urban Thematic Exploitation Platform-TEP Urban”(ESRIN/Contract No.4000113707/15/I-NB)since the processing of the global TimeScan product based on Landsat-8 data was realized in the context of this initiative.
文摘The European Sentinel missions and the latest generation of the United States Landsat satellites provide new opportunities for global environmental monitoring.They acquire imagery at spatial resolutions between 10 and 60 m in a temporal and spatial coverage that could before only be realized on the basis of lower resolution Earth observation data(>250 m).However,images gathered by these modern missions rapidly add up to data volume that can no longer be handled with standard work stations and software solutions.Hence,this contribution introduces the TimeScan concept which combines pre-existing tools to an exemplary modular pipeline for the flexible and scalable processing of massive image data collections on a variety of(private or public)computing clusters.The TimeScan framework covers solutions for data access to arbitrary mission archives(with different data provisioning policies)and data ingestion into a processing environment(EO2Data module),mission specific pre-processing of multi-temporal data collections(Data2TimeS module),and the generation of a final TimeScan baseline product(TimeS2Stats module)providing a spectrally and temporally harmonized representation of the observed surfaces.Technically,a TimeScan layer aggregates the information content of hundreds or thousands of single images available for the area and time period of interest(i.e.up to hundreds of TBs or even PBs of data)into a higher level product with significantly reduced volume.In first test,the TimeScan pipeline has been used to process a global coverage of 452,799 multispectral Landsat–8 scenes acquired from 2013 to 2015,a global data-set of 25,550 Envisat ASAR radar images collected 2010–2012,and regional Sentinel–1 and Sentinel–2 collections of∼1500 images acquired from 2014 to 2016.The resulting TimeScan products have already been successfully used in various studies related to the large-scale monitoring of environmental processes and their temporal dynamics.
