Phase One 645 DF and IQ Digital Back Users Guide
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The IQ Camera System
The IQ camera system Unlimited creativity at your fingertips “I am amazed by the image quality I’ve gotten ‘out of the box’ with the Phase One IQ180 on the Phase One 645DF camera. I can create images with more detail and unique looks than with any other camera out there. It helps me develop styles unique to me,” Jens Honoré, lifestyle photographer. World leading image quality Realize your vision. The IQ180 digital back is the world’s most powerful commercial photographic capture device. With up to 80 megapixels resolution, 12.5 f-stops extreme dynamic range and Capture One, the world’s leading RAW converter, it delivers superior image quality for the world’s leading photographers. © Jens Honoré Touch the future With the launch of the IQ series digital backs, Phase One has stepped into the future of medium format photography. Every component in this new line of digital backs is new or has been redesigned compared with previous generations digital backs. The result is a digital camera back, which sets the industry standard with the highest resolution image sensor, the highest dynamic range, the first camera featuring a USB3 connection, a big 3.2” high resolution touch screen and much more…. The new IQ series digital backs offer up to 80 megapixels resolution The IQ series digital backs supports your photography in a variety of work captured in full-frame 645 format. With it you can capture images of conditions. You can capture your images with 80 megapixels resolution stunning quality with extreme detail reproduction. The high resolution or you can use the Sensor+ technology and go for a faster workflow, cap- You can familiarize yourself with the IQ digital back gives you maximum versatility with your images, ensuring high quality turing images with up to 20 megapixels resolution at 4 times higher ISO over the next pages and book a personal product and usage, even when you work with cropped images. -
Still Photography
Still Photography Soumik Mitra, Published by - Jharkhand Rai University Subject: STILL PHOTOGRAPHY Credits: 4 SYLLABUS Introduction to Photography Beginning of Photography; People who shaped up Photography. Camera; Lenses & Accessories - I What a Camera; Types of Camera; TLR; APS & Digital Cameras; Single-Lens Reflex Cameras. Camera; Lenses & Accessories - II Photographic Lenses; Using Different Lenses; Filters. Exposure & Light Understanding Exposure; Exposure in Practical Use. Photogram Introduction; Making Photogram. Darkroom Practice Introduction to Basic Printing; Photographic Papers; Chemicals for Printing. Suggested Readings: 1. Still Photography: the Problematic Model, Lew Thomas, Peter D'Agostino, NFS Press. 2. Images of Information: Still Photography in the Social Sciences, Jon Wagner, 3. Photographic Tools for Teachers: Still Photography, Roy A. Frye. Introduction to Photography STILL PHOTOGRAPHY Course Descriptions The department of Photography at the IFT offers a provocative and experimental curriculum in the setting of a large, diversified university. As one of the pioneers programs of graduate and undergraduate study in photography in the India , we aim at providing the best to our students to help them relate practical studies in art & craft in professional context. The Photography program combines the teaching of craft, history, and contemporary ideas with the critical examination of conventional forms of art making. The curriculum at IFT is designed to give students the technical training and aesthetic awareness to develop a strong individual expression as an artist. The faculty represents a broad range of interests and aesthetics, with course offerings often reflecting their individual passions and concerns. In this fundamental course, students will identify basic photographic tools and their intended purposes, including the proper use of various camera systems, light meters and film selection. -
645AFD Instruction Manual Companion for Digital Photography
Mamiya 645 AFD Instruction Manual Companion for Digital Photography Mamiya 645 AFD Instruction Manual Companion for Digital Photography Congratulations on your purchase of the Mamiya 645AFD. To make the transition from film to digital easier, we are including this digital companion that explains all of the new indicators you will see on the LCDs of your Mamiya 645AFD. Please read the owner’s manual before reading this companion. Because the Mamiya 645AFD was made to communicate with digital camera backs, these indicators will inform you of the status of the communications between your Mamiya 645AFD and digital camera back. If you do not have a digital back, these indicators will not appear and you do not have to read any further. There are three basic modes that your Mamiya 645 AFD goes through when taking a digital image. First is the Normal or pre-capture mode. The camera is in this mode before the shutter is released. While in this mode the camera virtually acts as if there were a film magazine attached. Shutter speeds and apertures are displayed on the internal and external LCD displays. The second mode is after the shutter release button has been pressed. This is the Capture mode. At this time the Mamiya 645 AFD will start to act very differently when a digital back is attached. There is a whole new set of indicators that will be displayed on the LCD displays of the camera. The After Capture mode is the third and final mode. Again, in this mode there are new indicators that will appear on the camera’s LCD displays. -
Accurate Color Reproduction Workflow Guide
Accurate Color Reproduction Workflow Guide This document was prepared by Phase One’s Cultural Heritage team. For feedback and general inquiries please contact one of the team members: Carsten Wieser [email protected] Yair Shahar [email protected] Peter Stig-Nielsen [email protected] Liability Phase One disclaims any and all liabilities from the interpretation and use of the information presented in this document. All content and images are provided on an “as is” basis. Any images and/or information used or obtained from this document is done at your own risk and you will be solely responsible for all damage, including but not limited to damage to your computer system, hardware or loss of data. Trademarks & acknowledgements Capture One and Phase One are either registered trademarks or trademarks of Phase One A/S in the European Union and/or other countries. All other trademarks are the property of their respective owners. Revision: 04. July 2015. ©2015 Phase One A/S. All rights reserved. Made in Denmark. COCH WORKFLOW GUIDE V1.3 2 Phase One – Accurate Color Reproduction Workflow Guide Index INTRODUCTION ................................................................................................................................................................................................. 4 1. BASIC REFERENCES AND TOOLS NEEDED ............................................................................................................................................ 5 1.1 Imaging Guidelines ............................................................................................................................................................................. -
33 Phase One Ixu-RS1000 Accuracy Assessment Report Yu. Raizman
17th International Scientific and Technical Conference “FROM IMAGERY TO DIGITAL REALITY: ERS & Photogrammetry” Phase One iXU-RS1000 Accuracy Assessment Report Yu. Raizman, PhaseOne.Industrial, Israel 1. Introduction The main steps of the project were executed by The Phase One medium format cameras of the several geospatial, geodetic and photogrammetric series iXU-RS1000 are well known worldwide companies, which are most experienced in the and very popular for small and medium size area relevant fields: mapping projects, corridor mapping, LiDAR 1. Test field preparation mapping, urban mapping, 3D City modeling and a. Planning – Dr. Yuri Raizman, PhaseOne. oblique imagery capturing, constructions and Industrial (http://industrial.phaseone.com/) infrastructure monitoring and inspection. b. Geodetic measurements – ARMIG Geodetic The 100MP cameras with pixel size of 4.6 µ, Engineering Ltd. (www.armig.co.il/english) very high image capture rate -1 frame every 0.6 2. Test flight planning, flight execution and seconds and exposure time of up to 1/2500, a set of image preparation– Oodi Menaker, PhaseOne. metric lenses with different focal lengths (50, 70, Industrial 90, 110, 150 mm), provide a very effective solution 3. Image matching (automatic tie points in many areas of aerial mapping, monitoring and measurements), bundle block adjustment, GCP & object inspection. ChP measurements – Dr. Ziv Shragai from Simplex A very small form size (10x10x20cm including Mapping Solutions Ltd. (www.simplex-mapping. lenses) and a very light weight (less than 2 kg) are com) and Dr. Erwin Kruck from GIP, Dr. Kruck & also significant advantages of the camera – it may Co. GbR (http://bingo-atm.de/) be installed easily in every small and light aircrafts, 4. -
Phase One H 20 Getting Started
H 20 GETTING START E D PostScript billede (black logo) Phase One A/S Phase One U.S. Roskildevej 39 24 Woodbine Ave DK-2000 Frederiksberg Northport, New York Denmark 11768 USA Tel +45 36 46 01 11 Tel +1 631-757-0400 Fax +45 36 46 02 22 Fax +1 631-757-2217 Notice The name Phase One is a trademark of Phase One A/S. The names Hasselblad, Mamiya and Rollei are registered trademarks of their respective companies. All specifications are subject to change without notice. Phase One takes no responsibility for any loss or damage sustained while using their products. This manual ©2003, Phase One A/S Denmark. All rights reserved. No part of this manual may be reproduced or copied in any way without prior written permission of Phase One. Printed in Denmark. Part #: 80016001 Table of Contents 1 Contents 1 I n t r o d u c t i o n . .2 2 Special Phase One H 20 features . .3 ISO Settings . .3 Double exposure protection . .3 IR filter on CCD . .4 Large format photography . .4 3 Getting ready for taking pictures . .6 Mounting the viewfinder mask . .6 Mounting the H 20 on a Hsselblad Camera . .7 Cable mounting on Hasselblad . .8 Hasselblad 553 ELX . .9 Hasselblad 555 ELD . .10 Hasselblad 501 CM and 503 CW . .10 Mamiya RZ67 Pro II . .11 Rolleiflex 6008 AF/Integrale . .13 4 Maintenance . .17 Cleaning the IR filter . .17 5 Technical data . .18 1 H 20 Getting Started 1 Introduction The Phase One H 20 single shot camera back, is designed for high-end advertising studios with a need for productivity, flexibility and the absolute best in image quality. -
User Manual Hasselblad CF Digital Camera Back Range C O N T E N T S
User Manual Hasselblad CF Digital Camera Back Range C O N T E N T S Introduction 3 5 MENU—ISO, White balance, Media, Browse 31 1 General overview 6 Menu system overview 31 Parts, components and control panel 8 Navigating the menu system 31 Initial setup 10 Language choice 33 Shooting and storage modes 11 ISO 33 White balance 34 2 Initial General Settings 14 Media 34 Overview of menu structure 15 Browse 35 Setting the menu language 17 6 MENU—Storage 36 Delete 37 3 Storage overview – Format 42 working with media and batches 18 Copy 42 Batc hes 18 Batch 43 Navigating media and batches 18 Default Approval Level 44 Creating new batches 20 Using Instant Approval Architecture 21 7 MENU—Settings 45 Reading and changing approval status 22 User Interface 46 Browsing by approval status 22 Camera 48 Deleting by approval status 23 Capture sequence 50 Connectivity 51 4 Overview of viewing, deleting Setting exposure time/sequence 54 and copying images 24 Miscellaneous 56 Basic image browsing 24 About 57 Choosing the current batch 24 Default 58 Browsing by approval status 24 Zooming in and out 24 8 Multishot 59 Zooming in for more detail 25 Thumbnail views 25 General 59 Preview modes 26 Histogram 27 9 Flash/Strobe 60 Underexposure 27 General 60 Even exposure 27 TTL 60 Overexposure 27 Full-details 27 10 Cleaning 61 Battery saver mode 28 Full-screen mode 28 11 Equipment care, service, Overexposure indicator 28 technical spec. 63 Deleting images 29 General 63 Transferring images 29 Technical specifications 64 Inset photo on cover: © Francis Hills/www.figjamstudios.com.Not all the images in this manual were taken with a Hasselblad CF. -
Phase One P25
John Henshall’s Chip Shop Medium format digital is unshackled PHASE ONE P25 John Henshall looks at Phase One’s completely self-contained 22 megapixel medium format digital back and considers how well its images compare with large format film. ith a market share of over (1.9 x 1.4 inch) 22 megapixel sensor two thirds, Danish which virtually fills the imaging company Phase One are aperture of a 6 x 4.5 camera body. W the world leaders in This sizzling slice of silicon accounts medium format digital camera backs. for most of the cost of the P25 and is Almost six years ago I looked at the made by the world’s largest Phase One LightPhase 6 megapixel photographic company. back ( Chip Shop February 1999) and Yes, be it film of silver or sliver of described the images it produced as silicon in the back of your medium ‘exquisite’. Somewhat cheekily – format SLR, the recording of the image forever asking for more – I also is still down to Kodak. commented, ‘If Phase One … make When Eric Joakim brought the LightPhase completely portable, its P25 out to me in Oxfordshire, my first versatility will increase even more.’ impressions were of a digital back That was asking the impossible back which was a marvel of simplicity of then, when digital backs for medium design and perfection of construction. after the first few minutes. format digital cameras had to be The outer casing of the MFB-1 film Also on the rear of the P25 is a shackled to computers. -
Indoor Navigation Based on Fiducial Markers of Opportunity
University of Calgary PRISM: University of Calgary's Digital Repository Graduate Studies The Vault: Electronic Theses and Dissertations 2013-12-05 Indoor Navigation based on Fiducial Markers of Opportunity Lakhani, Mazhar Ali Lakhani, M. A. (2013). Indoor Navigation based on Fiducial Markers of Opportunity (Unpublished master's thesis). University of Calgary, Calgary, AB. doi:10.11575/PRISM/26507 http://hdl.handle.net/11023/1176 master thesis University of Calgary graduate students retain copyright ownership and moral rights for their thesis. You may use this material in any way that is permitted by the Copyright Act or through licensing that has been assigned to the document. For uses that are not allowable under copyright legislation or licensing, you are required to seek permission. Downloaded from PRISM: https://prism.ucalgary.ca UNIVERSITY OF CALGARY Indoor Navigation based on Fiducial Markers of Opportunity by Mazhar Ali Lakhani A THESIS SUBMITTED TO THE FACULTY OF GRADUATE STUDIES IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF SCIENCE DEPARTMENT OF ELECTRICAL AND COMPUTER ENGINEERING CALGARY, ALBERTA NOVEMBER, 2013 © Mazhar Ali Lakhani 2013 Abstract Indoor navigation has gained significant importance in the last decade due to its applications in the location based services industry. The outdoor navigation technology of GNSS by itself does not offer good solutions due to presence of multipath and low SNR in indoor environments. Complimentary sensors like IMU, magnetometers, cameras, etc., have their own set of problems. A camera however, provides a wealth of information for position estimation. The main aim of this thesis is to analyse camera based navigation systems using stationary figures of opportunity. -
Second Release)
ICT-PSP Project no. 297158 EUROPEANAPHOTOGRAPHY EUROPEAN Ancient PHOTOgraphicvintaGe repositoRies of digitAized Pictures of Historical qualitY Starting date: 1st February 2012 Ending date: 31st January 2015 Deliverable Number: D 3.1.2 Title of the Deliverable: Digitised material (second release) Dissemination Level: Public Contractual Date of Delivery to EC: Month 30 Actual Date of Delivery to EC: July 2014 Project Coordinator Company name : KU Leuven Name of representative : Fred Truyen Address : Blijde-Inkomststraat 21 B-3000 Leuven PB 3301 Phone number : +32 16 325005 E-mail : [email protected] Project WEB site address : http://www.europeana-photography.eu Page 1 of 37 EUROPEANAPHOTOGRAPHY Deliverable D3.1.2 Digitized material (second release) Context WP 3 Digitisation WPLeader CRDI – Ajuntament de Girona Task 3.1.2 Digitised material (second release) Task Leader CRDI – Ajuntament de Girona Dependencies Author(s) David Iglésias (CRDI. Ajuntament de Girona) Contributor(s) Joan Boadas (CRDI. Ajuntament de Girona), Promoter, Fondazione Alinari, TopFoto, Imagno, Parisienne, ICCU, Polfoto, Gencat Cultura, United-Archives, NALIS, MHF, Arbejdermuseet, ICIMSS, KU Leuven, Lithuanian Museums Reviewers Sofie Taes (KU Leuven), Davide Madonna (ICCU), Nikolaos Simou (NTUA) Approved by: History Version Date Author Comments 0.1 24/07/2014 David Iglésias - CRDI 1.0 30/07/2014 David Iglésias - Updated according CRDI to the peer review Statement of originality: This deliverable contains original unpublished work except where clearly indicated otherwise. Acknowledgement of previously published material and of the work of others has been made through appropriate citation, quotation or both. Page 2 of 37 EUROPEANAPHOTOGRAPHY Deliverable D3.1.2 Digitized material (second release) TABLE OF CONTENTS 1 EXECUTIVE SUMMARY .................................................................................................................... -
Phase One Rainbow Fully Automated 100MP Multispectral Imaging Solution
Phase One Rainbow Fully Automated 100MP Multispectral Imaging Solution Unveil the invisible Discovering Multispectral Imaging Multispectral imaging (MSI) captures light from a range of wavelengths - visible and invisible to the human eye - across the electromagnetic spectrum using special camera technology, light sources, and filters. The resulting “stacks” of images are used to analyze substances and surfaces to determine readability, authenticity, age, and material-characterization and distribution. MSI in a wide range of applications: Analysis of documents - Readability of text on parchment, scrolls, and paper, often in poor condition is one application. Analysis of polychrome surfaces such as paintings - on canvas, wood, stone, and other materials. Applications include non-invasive analysis for conservation work and authentication. Analysis of Fabrics of all kinds -such as historic research to determine age and material. Police, forensic and crime scene investigation. Analysis for residue of human fluids on fabric, fingerprints, marks from use of weapons, and crime scene evidence. Materials characterization and sorting. Applications include quality assurance, research and development of new materials, and analysis for machine vision. General: MSI is used to differentiate subject matter based upon the differentiated response from materials with different chemical compositions Images credits R.B. Toth Associates / Equipoise Imaging MSI outstanding benefits for analysis Non-invasive & Quick first step for Nondestructive Modular & mobile non-desctructive further analysis – thanks to low energy capturing solutions contactless analysis Do it once, do it right LED lighting 2 Discovering Multispectral Imaging The Rainbow Multispectral Imaging Solution The Rainbow Software RAINBOW Multispectral cameras have been available in the market for many years but the calibration process, as well as the techniques for changing material sizes whilst maintaining consistent images that can be stacked and analyzed efficiently, has been a challenge and created significant overhead. -
Programmable Image-Based Light Capture for Previsualization
ii Abstract Previsualization is a class of techniques for creating approximate previews of a movie sequence in order to visualize a scene prior to shooting it on the set. Often these techniques are used to convey the artistic direction of the story in terms of cinematic elements, such as camera movement, angle, lighting, dialogue, and char- acter motion. Essentially, a movie director uses previsualization (previs) to convey movie visuals as he sees them in his ”minds-eye”. Traditional methods for previs include hand-drawn sketches, Storyboards, scaled models, and photographs, which are created by artists to convey how a scene or character might look or move. A recent trend has been to use 3D graphics applications such as video game engines to perform previs, which is called 3D previs. This type of previs is generally used prior to shooting a scene in order to choreograph camera or character movements. To visualize a scene while being recorded on-set, directors and cinematographers use a technique called On-set previs, which provides a real-time view with little to no processing. Other types of previs, such as Technical previs, emphasize accurately capturing scene properties but lack any interactive manipulation and are usually employed by visual effects crews and not for cinematographers or directors. This dissertation’s focus is on creating a new method for interactive visualization that will automatically capture the on-set lighting and provide interactive manipulation of cinematic elements to facilitate the movie maker’s artistic expression, validate cine- matic choices, and provide guidance to production crews. Our method will overcome the drawbacks of the all previous previs methods by combining photorealistic ren- dering with accurately captured scene details, which is interactively displayed on a mobile capture and rendering platform.