Real Time Unequal Error Protection Algorithms For Progressive Image Transmission
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Request full-text Unequal error protection for progressive image transmissionArticle · January 2011 with 1 Reads1st Xin-Lin Huang23.4 · Tongji University2nd G. Wang+ 13rd C.-G. LiuLast Q.-Q. SunShow more authorsAbstractThe necessary condition for the optimal Unequal Error Protection (UEP) of progressive image was analyzed. The conclusion that the importance of bitstream after UEP with optimal allocation is monotonously decreasing was proved and the range of the expected distortion http://ieeexplore.ieee.org/iel5/49/28068/01254569.pdf?arnumber=1254569 of the reconstructing image at the decoder was given. Result of this study can provide important reference for the design of progressive image transformation system.Do you want to read the rest of this article?Request full-text CitationsCitations1ReferencesReferences3Influence of Heat Treatment Temperature on Structure and Performance of Tourmaline/Diatomite Wall Tile' Enamel https://www.researchgate.net/publication/290651578_Unequal_error_protection_for_progressive_image_transmission Layer[Show abstract] [Hide abstract] ABSTRACT: A supporting body of diatomite-based porous ceramic was prepared by a solid-phase sintering process and a low-temperature calcination process. Tourmaline/diatomite wall tile′ enamel layer was prepared with diatomite as main materials and proper tourmaline and binding agent addition by enamel layer heat treated at different temperatures. The materials obtained were characterized by thermogravimetry–differential scanning thermal analysis, X-ray diffraction, scanning electron microscope and Fourier transform infrared, respectively. The influence of heat treatment temperature on the surface groups, structure and performance of materials was investigated, and the removal efficiency of materials to formaldehyde was analyzed. The results indicate that diatomite original holes reduce and tourmaline structure also changes with the increase of heat treatment temperature. The surface structure of materials was slightly damaged. The removal rate of materials with the high strength and superior removal efficiencies to formaldehyde at 850° reached 73.
εμάς.Μάθετε περισσότερα Το κατάλαβαΟ λογαριασμός μουΑναζήτησηΧάρτεςYouTubePlayΕιδήσειςGmailDriveΗμερολόγιοGoogle+ΜετάφρασηΦωτογραφίεςΠερισσότεραΈγγραφαBloggerΕπαφέςHangoutsΑκόμη περισσότερα από την GoogleΕίσοδοςΚρυφά πεδίαΒιβλίαbooks.google.gr - This book deals with the problem of joint source-channel video transmission, https://books.google.gr/books?id=cleTYlQb8qIC&pg=PA132&lpg=PA132&dq=real+time+unequal+error+protection+algorithms+for+progressive+image+transmission&source=bl&ots=bI_ABnFphu&sig=6TEP8yTjWugfzXcYjvQYjApNk2A&hl=en&sa=X&ve i.e., the joint optimal allocation of resources at the application layer and the other network layers, such as data rate adaptation, channel coding, power adaptation in wireless networks, quality of service (QoS) support from...https://books.google.gr/books/about/Joint_Source_Channel_Video_Transmission.html?hl=el&id=cleTYlQb8qIC&utm_source=gb-gplus-shareJoint Source-Channel Video TransmissionΗ βιβλιοθήκη μουΒοήθειαΣύνθετη Αναζήτηση ΒιβλίωνΠροβολή eBookΛήψη αυτού real time του βιβλίου σε έντυπη μορφήMorgan & Claypool PublishersΕλευθερουδάκηςΠαπασωτηρίουΕύρεση σε κάποια βιβλιοθήκηΌλοι οι πωλητές»Joint Source-Channel Video TransmissionFan Zhai, Aggelos KatsaggelosMorgan & Claypool Publishers, 2007 - 136 σελίδες 0 Κριτικέςhttps://books.google.gr/books/about/Joint_Source_Channel_Video_Transmission.html?hl=el&id=cleTYlQb8qICThis book deals with the problem of joint source-channel video transmission, i.e., the joint optimal allocation of real time unequal resources at the application layer and the other network layers, such as data rate adaptation, channel coding, power adaptation in wireless networks, quality of service (QoS) support from the network, and packet scheduling, for efficient video transmission. Real-time video communication applications, such as videoconferencing, video telephony, and on-demand video streaming, have gained increased popularity. However, a key problem in video transmission over the existing Internet and wireless networks is the incompatibility between the nature of the network conditions and the QoS requirements (in terms, for example, of bandwidth, delay, and packet loss) of real-time video applications. To deal with this incompatibility, a natural approach is to adapt the end-system to the network. The joint source-channel coding approach aims to efficiently perform content-aware cross-layer resource allocation, thus increasing the communication efficie