Readying the EOS•DCS Camera 5-2 Accommodate for the Absent Quick Control Dial 5-5
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Page 16 of 128 Exhibit No. Description Deposition
Case 1:04-cv-01373-KAJ Document 467-2 Filed 10/23/2006 Page 1 of 140 Exhibit Description Deposition Objections No. Ex. No. PTX-168 7/16/2003, Technical Reference Napoli Ex. Manual [DM270] (EKCCCI007053- 132 836) PTX-169 2003, Data Sheet for TMS320DM270 Processor (AX200153-55) PTX-170 10/30/2002, DM270 Preliminary Napoli Ex. Register Manual Rev. b0.6 131 (EKCCCI001305-495) PTX-171 TI DM270 Imx Hardware Akiyama Programming Interface, Version 0.0 Ex. 312 (EKCNYII005007249-260) PTX-172 3/3/2003, DM270 Preliminary Data Ohtake Ex. Sheet Rev. b0.7C (EKCCCI008094- 123 131) PTX-173 Fact Sheet for TMS320DM270 Lacks Processor (AX200150-52) authenticity; Hearsay; Lacks foundation; Lacks relevance PTX-174 6/04, Data Sheet rev 0.5 for Hynix Ligler Ex. Lacks HY57V561620C[L]T[P] (AX200163- 13 (ITC) authenticity; 74) Hearsay; Lacks foundation; Lacks relevance PTX-175 Sharp RJ21T3AA0PT Data Sheet Hearsay; (EKCCCI017389-413) Lacks foundation; Lacks relevance PTX-176 DX7630 Thumbnail Test Lacks (AXD022568-81) authenticity; Hearsay; Lacks foundation; Lacks relevance; Inaccurate/ incomplete description PTX-177 1/11/2005, DM270 IP Chain ver. 0.7 Yoshikawa with translation (EKC001021025-31, Ex. 348 AX211033-42) PTX-178 1/26/2004, Bud Camera F/W Task Lacks foundation; Interface Capture Main <-> Image ISR Lacks relevance (DX7630) ver. 0.07 / Takeshi Domen with translation (EKCCCI002404-19, AX211607-26) Page 16 of 128 Case 1:04-cv-01373-KAJ Document 467-2 Filed 10/23/2006 Page 2 of 140 Exhibit Description Deposition Objections No. Ex. No. PTX-179 2/17/2003, Budweiser Camera EXIF Akiyama Lacks foundation; File Access Library Spec (DX7630) Ex. -
Are You Ready for a Digital Camera? by Jennifer Ruisaard and Conrad Turner
Are You Ready for a Digital Camera? by Jennifer Ruisaard and Conrad Turner Digital cameras flashed onto the technology scene a few years ago, threatening the future of conventional photography. Employing the same elements as traditional cameras, digital cameras convert images into a series of pixels that computers can understand and display directly on-screen. These digital images transmit easily through e-mail attachments and are instantly ready to use. The quality of digital images improved drastically over the last five years. In addition, digital cameras offer the benefits of speed, flexibility, and cost savings. Digital photographs are easy to retouch and manipulate through programs such as Photoshop. Furthermore, digital images do not need to be scanned. Therefore, defects introduced by the scanning process are eliminated. Types of Digital Cameras The digital photography market offers consumers three types of cameras: low-, mid-, and high-range. Buyers of digital cameras should choose a camera depending on their specific needs and the type of job to be done. Low-end digital cameras cost around $1,000 and are equivalent to conventional point-and- shoot cameras. Their low resolution, usually about 640 ´ 480 pixels, makes them a cost-effective tool for jobs that do not require high quality, sharpness, or color accuracy. This range of cameras can produce quality prints up to 2.4 ´ 1.8 inches at 133 lpi (266 ppi), which is sufficient for small brochures, advertisements, and catalog images. The next group of digital cameras, called mid-range, cost between $5,000 and $15,000. These cameras are essentially traditional Single Lens Reflex (SLR) camera bodies. -
Graphicconverter 6.6
User’s Manual GraphicConverter 6.6 Programmed by Thorsten Lemke Manual by Hagen Henke Sales: Lemke Software GmbH PF 6034 D-31215 Peine Tel: +49-5171-72200 Fax:+49-5171-72201 E-mail: [email protected] In the PDF version of this manual, you can click the page numbers in the contents and index to jump to that particular page. © 2001-2009 Elbsand Publishers, Hagen Henke. All rights reserved. www.elbsand.de Sales: Lemke Software GmbH, PF 6034, D-31215 Peine www.lemkesoft.com This book including all parts is protected by copyright. It may not be reproduced in any form outside of copyright laws without permission from the author. This applies in parti- cular to photocopying, translation, copying onto microfilm and storage and processing on electronic systems. All due care was taken during the compilation of this book. However, errors cannot be completely ruled out. The author and distributors therefore accept no responsibility for any program or documentation errors or their consequences. This manual was written on a Mac using Adobe FrameMaker 6. Almost all software, hardware and other products or company names mentioned in this manual are registered trademarks and should be respected as such. The following list is not necessarily complete. Apple, the Apple logo, and Macintosh are trademarks of Apple Computer, Inc., registered in the United States and other countries. Mac and the Mac OS logo are trademarks of Apple Computer, Inc. Photo CD mark licensed from Kodak. Mercutio MDEF copyright Ramon M. Felciano 1992- 1998 Copyright for all pictures in manual and on cover: Hagen Henke except for page 95 exa- mple picture Tayfun Bayram and others from www.photocase.de; page 404 PCD example picture © AMUG Arizona Mac Users Group Inc. -
CODE by R.Mutt
CODE by R.Mutt dcraw.c 1. /* 2. dcraw.c -- Dave Coffin's raw photo decoder 3. Copyright 1997-2018 by Dave Coffin, dcoffin a cybercom o net 4. 5. This is a command-line ANSI C program to convert raw photos from 6. any digital camera on any computer running any operating system. 7. 8. No license is required to download and use dcraw.c. However, 9. to lawfully redistribute dcraw, you must either (a) offer, at 10. no extra charge, full source code* for all executable files 11. containing RESTRICTED functions, (b) distribute this code under 12. the GPL Version 2 or later, (c) remove all RESTRICTED functions, 13. re-implement them, or copy them from an earlier, unrestricted 14. Revision of dcraw.c, or (d) purchase a license from the author. 15. 16. The functions that process Foveon images have been RESTRICTED 17. since Revision 1.237. All other code remains free for all uses. 18. 19. *If you have not modified dcraw.c in any way, a link to my 20. homepage qualifies as "full source code". 21. 22. $Revision: 1.478 $ 23. $Date: 2018/06/01 20:36:25 $ 24. */ 25. 26. #define DCRAW_VERSION "9.28" 27. 28. #ifndef _GNU_SOURCE 29. #define _GNU_SOURCE 30. #endif 31. #define _USE_MATH_DEFINES 32. #include <ctype.h> 33. #include <errno.h> 34. #include <fcntl.h> 35. #include <float.h> 36. #include <limits.h> 37. #include <math.h> 38. #include <setjmp.h> 39. #include <stdio.h> 40. #include <stdlib.h> 41. #include <string.h> 42. #include <time.h> 43. #include <sys/types.h> 44. -
Megaplus Conversion Lenses for Digital Cameras
Section2 PHOTO - VIDEO - PRO AUDIO Accessories LCD Accessories .......................244-245 Batteries.....................................246-249 Camera Brackets ......................250-253 Flashes........................................253-259 Accessory Lenses .....................260-265 VR Tools.....................................266-271 Digital Media & Peripherals ..272-279 Portable Media Storage ..........280-285 Digital Picture Frames....................286 Imaging Systems ..............................287 Tripods and Heads ..................288-301 Camera Cases............................302-321 Underwater Equipment ..........322-327 PHOTOGRAPHIC SOLUTIONS DIGITAL CAMERA CLEANING PRODUCTS Sensor Swab — Digital Imaging Chip Cleaner HAKUBA Sensor Swabs are designed for cleaning the CLEANING PRODUCTS imaging sensor (CMOS or CCD) on SLR digital cameras and other delicate or hard to reach optical and imaging sur- faces. Clean room manufactured KMC-05 and sealed, these swabs are the ultimate Lens Cleaning Kit in purity. Recommended by Kodak and Fuji (when Includes: Lens tissue (30 used with Eclipse Lens Cleaner) for cleaning the DSC Pro 14n pcs.), Cleaning Solution 30 cc and FinePix S1/S2 Pro. #HALCK .........................3.95 Sensor Swabs for Digital SLR Cameras: 12-Pack (PHSS12) ........45.95 KA-11 Lens Cleaning Set Includes a Blower Brush,Cleaning Solution 30cc, Lens ECLIPSE Tissue Cleaning Cloth. CAMERA ACCESSORIES #HALCS ...................................................................................4.95 ECLIPSE lens cleaner is the highest purity lens cleaner available. It dries as quickly as it can LCDCK-BL Digital Cleaning Kit be applied leaving absolutely no residue. For cleaing LCD screens and other optical surfaces. ECLIPSE is the recommended optical glass Includes dual function cleaning tool that has a lens brush on one side and a cleaning chamois on the other, cleaner for THK USA, the US distributor for cleaning solution and five replacement chamois with one 244 Hoya filters and Tokina lenses. -
Farewell to the Kodak DCS Dslrs
John Henshall’s Chip Shop FAREWELL TO THE KODAK DCS John Henshall looks at Kodak’s legacy as the end of its DSLR production is announced . hen Kodak introduced the the world’s first totally portable Digital W Camera System – the DCS – in 1991 it established Eastman Kodak as the world leader of professional digital image capture. Fourteen years later, Kodak has just announced that it is ending production 1992: DCS200 of Digital Single Lens Reflex cameras. The DCS was a product launched ahead of its potential market, but one which indelibly marked the start of the future of photography. Kodak was smart. It housed its DCS in something photographers were already at home with: a Nikon F3 camera body. All the F3’s functions were retained, and the DCS used standard Nikon lenses. Only the 1991: The original Kodak DCS [100] and DSU 2005: Last of the line – the DCS ProSLR/c focusing screen was changed. A new Kodak-produced digital The relative sensitivity of the camera back was fixed to the Nikon F3 DCS camera back was ISO100. body. A light sensitive integrated circuit Exposure could be ‘pushed’ by – Charge Coupled Device – was fitted one, two or three ƒ-stops to into its film plane. ISO200, 400 or 800 on an This CCD image sensor had an individual shot-by-shot basis. incredible 1.3 million individual pixels It was not necessary to m o c . – more than four times as many as in expose a whole ‘roll of film’ at e r t n television cameras – arranged in a the same ISO rating, as was e c - i 1024 x 1280 pixel rectangle measuring necessary when shooting film. -
Photography Lab Cookbook
Photography Lab Cookbook Table of Contents. 1. Photo lab SOP 2. Photo lab Manuals 3. Film Processes E-6 Processing Procedure E-6 Chemical Mixing instruction Black and White Chemistry Development 4. Paper Processing Black and White Paper Development Porta-Mixer Black and White Core & Close-up Photo Distribution 5. Close-up Photography Introduction Talk with Scientist Close up photography Close up spreadsheet master Close-up request sheet 6. Silk Screening Procedure 7. Silk Screen Flyers (see separate files) Logos due T-shirts due Name on shirt Light Ink Dark Ink Iron Shirts 8. Photographic Examples (see separate files) Group Photo Tech Photo Mug Shots Cookbook– Photo Lab 1 PHOTO LAB STANDARD OPERATING PROCEDURE (SOP) PORTCALL (on coming) Onboard ship: • Find off going Marine Lab Specialist’s, Photo Lab and begin X-over. X-over • Read lab reports from previous leg. • Discuss with off going marine specialist any changes in equipment status, software or procedures. • Check supply levels in photo lab and hold refer. You are responsible for this inventory. Estimate amount of film, paper and chemistry needed for each particular type of leg. If you do not feel you have enough supplies necessary (after checking oncoming shipments), notify LO to purchase film/paper/chemistry in port. • You are responsible for knowing the status of ALL equipment in your lab by the end of the x- over. If you need additional days to complete your x-over, notify the LO ASAP so that arrangements can be made. Other: • Assist with loading/unloading freight and other tasks as directed by LO/ALO. -
Lecture 9, Part 2A: Cameras We Cannot Picture
Cameras We Cannot Picture Ravi Athale The MITRE Corporation Outline • History of Camera: important milestones • Modern milestones: – Invention of photographic film – Invention of CCD semiconductor sensor • New directions in camera design: – Cameras + computers • Future A world reliant on imaging • You are probably carrying a camera right now • It is likely you have been imaged at least once TODAY! • Have you received information today communicated by an image? • You or someone close to you is alive today because of an image • 1/3 or brain processing devoted to vision 3 Images (clockwise from upper left) from US Govt Agencies: NOAA/NCEP; NASA ; NIH; FBI,; USAID Natural Observations Image courtesy of Steve took it on Flickr. Images of the sun during a solar eclipse through the leaves of a tree. October 3, 2005, St Juliens, Malta. © Wikipedia User: Ellywa. License CC BY-SA. This content is excluded from our Creative Commons license. For more information, see http://ocw.mit.edu/fairuse. Historical Milestones – Early Contributors 400-500 BC: Chinese philosophers, Aristotle Observation of pinhole images 1011-1012: Alhazan; “Book of Optics” First scientific study of light combining philosophical aspect with experimental observations. - Constructed first “pinhole camera” - Elaborated laws of reflection and refraction World’s Largest Pinhole Camera (July 2006) • Six photographers captured an image measuring 8.5 X 32 meters of the decommissioned El Toro Marine Corps Air Station in Irvine, Calif., and unveiled the slightly fuzzy image Wednesday. • The black-and-white shot was recorded on a massive sheet of light- sensitive fabric about eight storey tall and one-third the length of a football field. -
“Dark Chamber”
The Word Camera Is From Latin “Camera Obscura” Which Means “Dark Chamber”. National Camera Day is observed each year on June 29th. This day commemorates photographs, the camera, and their invention. A camera is an irreplaceable tool used to record and replicate memories, events, and people/places. Before the invention of the camera, the only resource to document a vision was a painting. There are very few who can perfectly capture the image of a person or a place in a drawing. The power of a camera provided many with a simple, inexpensive and fast solution. George Eastman, also known as “The Father of Photography,” brought the camera to the masses. While he did not invent the camera, he did invent many additions that improved the use, ease, and production of the camera, making it widely available to homes around the world. The original camera was large and bulky but has now evolved into something that can be as small as a pen. Cameras have many features and variations, making them appealing to men and women of all ages for personal and professional use. Joseph Niépce was a French inventor; he is most noted as one of the inventors of photography and was a pioneer in the field. He developed the heliograph; a technique used to produce the world’s first known photograph in 1825, the view from the window at Le Gras the families estate. In 1839, Louis Jacques Daguerre took the first fixed image that didn’t fade. He is recognized for his invention of the daguerreotype process of photography. -
Digitális Fotokamerák
DIGITÁLIS FOTOKAMERÁK 2020 augusztus blzs ver. 1.1 TARTALOMJEGYZÉK 1. A digitális kameragyártás általános helyzete…………………………...3 2. Középformátum………………………………………………………...6 2.1 Hátfalak……………………………………………………………..9 2.2 Kamerák…………………………………………………………...18 3. Kisfilmes teljes képkockás formátum………………………………….21 3.1 Tükörreflexesek……………………………………………………22 3.2 Távmérősek………………………………………………………...31 3.3 Kompaktok…………………………………………………………33 3.4 Tükörnélküli cserélhető objektívesek………………………………35 4. APS-C formátum……………………………………………………….42 4.1 Tükörreflexesek…………………………………………………….43 4.2 Kompaktok………………………………………………………….50 4.3 Tükörnélküli cserélhető objektívesek……………………………….53 5. Mikro 4/3-os formátum…………………………………………………60 5.1 Olympus…………………………………………………………….61 5.2 Panasonic…………………………………………………………...64 6. „1 col”-os formátum……………………………………………………69 6.1 Cserélhető objektívesek…………………………………………….69 6.2 Beépített objektívesek………………………………………………71 7. „Nagyszenzoros” zoom-objektíves kompaktok………………………..75 8. „Kisszenzoros” zoom-objektíves kompaktok………………………….77 8.1 Bridge kamerák…………………………………………………….78 8.2 Utazó zoomos ( szuperzoomos ) kompaktok……………………….81 8.3 Strapabíró ( kaland- víz- ütés- porálló ) kompaktok………………..83 9. A kurrens kamerák összefoglalása……………………………………...87 9.1 Technológia szerint…………………………………………………87 9.2 Gyártók szerint……………………………………………………..89 10. Gyártók és rendszereik………………………………………………....90 10.1 Canon……………………………………………………………...91 10.2 Sony……………………………………………………………….94 10.3 Nikon……………………………………………………………...98 10.4 Olympus………………………………………………………….101 10.5 Panasonic………………………………………………………...104 -
Metric Capabilities of Low-Cost Digital Cameras for Close Range Surface Measurement
Photogrammetric Record, 17(9#): 000–000 (April / October 200#) METRIC CAPABILITIES OF LOW-COST DIGITAL CAMERAS FOR CLOSE RANGE SURFACE MEASUREMENT By JIM H. CHANDLER ([email protected]), Loughborough University, UK JOHN G. FRYER ([email protected]), University of Newcastle, Australia and AMANDA JACK ([email protected]) Sir Robert M cAlpine Ltd, Hemel Hempstead, UK Abstract This paper examines the potential of low cost digital cameras for close-range surface measurement using feature based image matching methods. This is achieved through extracting digital elevation models (DEMs) and comparing accuracies between three low-cost consumer grade digital cameras (Sony DSC-P10, Olympus C3030, Nikon Coolpix 3100) and the proven Kodak DCS460. Surprisingly, the tests revealed that the highest accuracies were achieved using the Sony DSC-P10, not the Kodak DCS460, whilst the other two cameras certainly proved suitable for most close-range surface measurement tasks. Lens modelling was found to provide a limiting constraint on final accuracies, with very small systematic error surfaces caused by residual imperfections in lens modelling. The IMAGINE OrthoBASE Pro software and an independent self-calibrating bundle adjustment were used to process these data. These tests identified an inaccuracy in the self-calibrating capability of IMAGINE OrthoBASE Pro version 8.6 and Leica Geosystems LPS 8.7, which will be rectified in subsequent software releases. The study has demonstrated that cheaper consumer grade digital cameras have potential for routine surface measurement provided lens modelling is considered. The lead author is maintaining a web based repository for camera calibration data, which may assist other users. -
Modeling 3D Scenes
Modeling 3D Scenes Paradigm Shifts in Photogrammetry, Remote Sensing and Computer Vision Reinhard Klette CITR, The University of Auckland, Auckland, New Zealand Ralf Reulke Humboldt University and DLR, Berlin, Germany Paradigm 1962: ”...a constellation of concepts, values, perceptions and practices shared by a community which forms a particular vision of reality that is the basis of the way a community organises itself.” RK_RR T.S.Kuhn. The Structure of Scientific Revolutions. BGSU, 1962 Contents of Talk Progress in digital frame cameras - the basic tool Computer vision - success stories in 3D object modeling A few words on laser range finders - new opportunities for 3D scene modeling Photogrammetry and remote sensing - from digital frame cameras to line cameras Panoramic imaging - by applying line cameras Unified applications of new technologies - example: LRF and line camera for 3D modeling Conclusions RK_RR Properties of Interest 3D scene properties Distances between camera and objects in the scene Color textures of object surfaces Changes in 3D scenes Varying lighting conditions, weather, etc. Coping with dynamic scenes Calibration Positions of cameras or used sensors (tools) Viewing directions of cameras or sensors Inner camera parameters RK_RR n ≥ 1 pinhole cameras (Still) the Common Default nth camera 1st camera projection ray world coordinates RK_RR it started with n = 1 1900: The railroad camera of George R. Lawrence RK_RR Division of Photographic History, National Museum of American History, Smithsonian Institution Digital Camera