Visual Communication [electronic resource] : An Information Theory Approach /
not a coincidence, but is the result of a carefully planned time of landing (sun elevation) and lander orientation (sun azimuth). * The picture was started 25 seconds after touchdown and took 15 seconds to acquire. The alternating bright and dark vertical striations at the left side of the image and the fine particles deposited on the footpad at the right side were caused by a turbulent cloud of dust raised by the lander's retrorockets. t *F. O. Huck and S. D. Wall, "Image quality prediction: An aid to the Viking Lander imaging investigation on Mars. " Appl. Opt. 15, 1748-1766 (1976). tT. A. Mutch, A. B. Binder, F. O. Huck, E. C. Levinthal, S. Liebes, Jr. , E. C. Morris, W. R. Patterson, J. B. Pollack, C. Sagan and G. R. Taylor, "The Surface of Mars: The view from the Viking 1 Lander. " Science 193, 791-801 (1976). VISUAL COMMUNICATION An Information Theory Approach Chapter 1 Introduction 1. 1 OBJECTIVE l The fundamental problem of communication, as Shannon stated it, is that of reproducing at one point either exactly or approximately a message selected at another point. In the classical model of communication (Fig. 1. 1), the infor mation source selects a desired message from a set of possible messages which the transmitter changes into the signal that is actually sent over the commu nication channel to the receiver. The receiver changes this signal back into a message, and hands this message to the destination.
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Boston, MA : Springer US : Imprint: Springer,
1997
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Subjects: | Engineering., Image processing., Electrical engineering., Communications Engineering, Networks., Image Processing and Computer Vision., Electrical Engineering., Signal, Image and Speech Processing., |
Online Access: | http://dx.doi.org/10.1007/978-1-4757-2568-1 |
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KOHA-OAI-TEST:2255852018-07-31T00:05:50ZVisual Communication [electronic resource] : An Information Theory Approach / Huck, Friedrich O. author. Fales, Carl L. author. Rahman, Zia-ur. author. SpringerLink (Online service) textBoston, MA : Springer US : Imprint: Springer,1997.engnot a coincidence, but is the result of a carefully planned time of landing (sun elevation) and lander orientation (sun azimuth). * The picture was started 25 seconds after touchdown and took 15 seconds to acquire. The alternating bright and dark vertical striations at the left side of the image and the fine particles deposited on the footpad at the right side were caused by a turbulent cloud of dust raised by the lander's retrorockets. t *F. O. Huck and S. D. Wall, "Image quality prediction: An aid to the Viking Lander imaging investigation on Mars. " Appl. Opt. 15, 1748-1766 (1976). tT. A. Mutch, A. B. Binder, F. O. Huck, E. C. Levinthal, S. Liebes, Jr. , E. C. Morris, W. R. Patterson, J. B. Pollack, C. Sagan and G. R. Taylor, "The Surface of Mars: The view from the Viking 1 Lander. " Science 193, 791-801 (1976). VISUAL COMMUNICATION An Information Theory Approach Chapter 1 Introduction 1. 1 OBJECTIVE l The fundamental problem of communication, as Shannon stated it, is that of reproducing at one point either exactly or approximately a message selected at another point. In the classical model of communication (Fig. 1. 1), the infor mation source selects a desired message from a set of possible messages which the transmitter changes into the signal that is actually sent over the commu nication channel to the receiver. The receiver changes this signal back into a message, and hands this message to the destination.1 Introduction -- 2 Image Gathering and Reconstruction -- 3 Image Gathering and Restoration -- 4 Information-Theoretic Assessment -- 5 Multiresolution Decomposition -- 6 Multiresponse Image Gathering and Restoration -- 7 Electro-Optical Design -- A Sensitivity and Spatial Response -- B Photodetector Noise -- B.1 Photodetector-Array Mechanism -- B.2 Line-Scan Mechanism -- C Insufficient Sampling -- D Quantization -- E Quantitative Assessment of Image Quality -- E.1 Attributes of Visual Quality -- E.2 Human Visual Response.not a coincidence, but is the result of a carefully planned time of landing (sun elevation) and lander orientation (sun azimuth). * The picture was started 25 seconds after touchdown and took 15 seconds to acquire. The alternating bright and dark vertical striations at the left side of the image and the fine particles deposited on the footpad at the right side were caused by a turbulent cloud of dust raised by the lander's retrorockets. t *F. O. Huck and S. D. Wall, "Image quality prediction: An aid to the Viking Lander imaging investigation on Mars. " Appl. Opt. 15, 1748-1766 (1976). tT. A. Mutch, A. B. Binder, F. O. Huck, E. C. Levinthal, S. Liebes, Jr. , E. C. Morris, W. R. Patterson, J. B. Pollack, C. Sagan and G. R. Taylor, "The Surface of Mars: The view from the Viking 1 Lander. " Science 193, 791-801 (1976). VISUAL COMMUNICATION An Information Theory Approach Chapter 1 Introduction 1. 1 OBJECTIVE l The fundamental problem of communication, as Shannon stated it, is that of reproducing at one point either exactly or approximately a message selected at another point. In the classical model of communication (Fig. 1. 1), the infor mation source selects a desired message from a set of possible messages which the transmitter changes into the signal that is actually sent over the commu nication channel to the receiver. The receiver changes this signal back into a message, and hands this message to the destination.Engineering.Image processing.Electrical engineering.Engineering.Communications Engineering, Networks.Image Processing and Computer Vision.Electrical Engineering.Signal, Image and Speech Processing.Springer eBookshttp://dx.doi.org/10.1007/978-1-4757-2568-1URN:ISBN:9781475725681 |
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Engineering. Image processing. Electrical engineering. Engineering. Communications Engineering, Networks. Image Processing and Computer Vision. Electrical Engineering. Signal, Image and Speech Processing. Engineering. Image processing. Electrical engineering. Engineering. Communications Engineering, Networks. Image Processing and Computer Vision. Electrical Engineering. Signal, Image and Speech Processing. |
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Engineering. Image processing. Electrical engineering. Engineering. Communications Engineering, Networks. Image Processing and Computer Vision. Electrical Engineering. Signal, Image and Speech Processing. Engineering. Image processing. Electrical engineering. Engineering. Communications Engineering, Networks. Image Processing and Computer Vision. Electrical Engineering. Signal, Image and Speech Processing. Huck, Friedrich O. author. Fales, Carl L. author. Rahman, Zia-ur. author. SpringerLink (Online service) Visual Communication [electronic resource] : An Information Theory Approach / |
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not a coincidence, but is the result of a carefully planned time of landing (sun elevation) and lander orientation (sun azimuth). * The picture was started 25 seconds after touchdown and took 15 seconds to acquire. The alternating bright and dark vertical striations at the left side of the image and the fine particles deposited on the footpad at the right side were caused by a turbulent cloud of dust raised by the lander's retrorockets. t *F. O. Huck and S. D. Wall, "Image quality prediction: An aid to the Viking Lander imaging investigation on Mars. " Appl. Opt. 15, 1748-1766 (1976). tT. A. Mutch, A. B. Binder, F. O. Huck, E. C. Levinthal, S. Liebes, Jr. , E. C. Morris, W. R. Patterson, J. B. Pollack, C. Sagan and G. R. Taylor, "The Surface of Mars: The view from the Viking 1 Lander. " Science 193, 791-801 (1976). VISUAL COMMUNICATION An Information Theory Approach Chapter 1 Introduction 1. 1 OBJECTIVE l The fundamental problem of communication, as Shannon stated it, is that of reproducing at one point either exactly or approximately a message selected at another point. In the classical model of communication (Fig. 1. 1), the infor mation source selects a desired message from a set of possible messages which the transmitter changes into the signal that is actually sent over the commu nication channel to the receiver. The receiver changes this signal back into a message, and hands this message to the destination. |
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Texto |
topic_facet |
Engineering. Image processing. Electrical engineering. Engineering. Communications Engineering, Networks. Image Processing and Computer Vision. Electrical Engineering. Signal, Image and Speech Processing. |
author |
Huck, Friedrich O. author. Fales, Carl L. author. Rahman, Zia-ur. author. SpringerLink (Online service) |
author_facet |
Huck, Friedrich O. author. Fales, Carl L. author. Rahman, Zia-ur. author. SpringerLink (Online service) |
author_sort |
Huck, Friedrich O. author. |
title |
Visual Communication [electronic resource] : An Information Theory Approach / |
title_short |
Visual Communication [electronic resource] : An Information Theory Approach / |
title_full |
Visual Communication [electronic resource] : An Information Theory Approach / |
title_fullStr |
Visual Communication [electronic resource] : An Information Theory Approach / |
title_full_unstemmed |
Visual Communication [electronic resource] : An Information Theory Approach / |
title_sort |
visual communication [electronic resource] : an information theory approach / |
publisher |
Boston, MA : Springer US : Imprint: Springer, |
publishDate |
1997 |
url |
http://dx.doi.org/10.1007/978-1-4757-2568-1 |
work_keys_str_mv |
AT huckfriedrichoauthor visualcommunicationelectronicresourceaninformationtheoryapproach AT falescarllauthor visualcommunicationelectronicresourceaninformationtheoryapproach AT rahmanziaurauthor visualcommunicationelectronicresourceaninformationtheoryapproach AT springerlinkonlineservice visualcommunicationelectronicresourceaninformationtheoryapproach |
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