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TOP TEN LIST TEN BEST WAYS TO ENSURE A BAD HEALTH DATA MAP With apologies to David Letterman, and thanks to my colleagues and associates around the country, including Linda Pickle (NCHS), Geoff Jacquez (Biomedware), Phil Klein (WI DHFS) and others. R.S. Kirby, August 1998 Number 10 Select colors that are indistinguishable from one another by the color blind. 1 Number 9 Classify data values according to preconceived notions of patterns and trends; utilize standards from the literature or statistical methods only as a last resort. Number 8 Use symbols or pie charts (instead of area shading or contour lines) for maps with many areal units (e.g. US counties). 2 Number 7 Use colors with connotations that are counterintuitive (e.g. red for low, blue for high). Number 6 Place all available overlays (roads, wellheads, highways, pipelines, zoning patterns, ZIP Code boundaries, rivers and lakes, etc) on the health data map, regardless of whether they have anything to do with the disease or health outcome. 3 Number 5 When mapping areal units as three-dimensional polygons (prism map), orient the map so that areas with the largest values are in front to block the view of other areas. Number 4 Read nothing; ignore especially all books and articles by Mark Monmonier, Edward Tufte, Howard Wainer, Alan MacEachren and Phil Muehrcke. 4 Number 3 If you have access to a medical geographer, ignore her. If you can involve a spatial analyst or cartographer in your project, do so at your own peril! Collaboration with such specialists can only strengthen your research design and methods of data presentation and should be avoided at all cost! Number 2 Ignore all research results regarding the psychology of perception concerning cartography and map interpretation; better yet, be completely unaware that this field of intellectual inquiry even exists. 5 Number 1 Use the default settings for map creation in your favorite GIS or mapping software package. 6.

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Volume 9 Number 6 December 1988
!SEN 0272-8532 base line a newsletter of the Map and Geography Round Table TABLE OF CONTENTS: From the Cha ir . 140 and From the Editor . 140 Official News . _. 141 MAGERT Midwinter Conference Schedule (Final). 141 MAGERT Annual Conference Schedule (Draft) 142 Conferences and Exhibitions. 144 On the Cataloging/Cataloguing Front. 145 NACIS Report. 147 New Books. 149 New Atlases. 152 Forthcoming Publications 152 Journal. 152 Government Publications. 153 New Maps . 154 New Periodical Articles. 156 News from GPO. 156 Duplicates. 157 Question Box _ 157 Miscellaneous. 157 On the l19hter Side. 158 Meridian. 159 Volume 9, Number 6 December 1988 base line is an official publication of the American Library Association's Map and Geography Round Table (MAGERT). The purpose of base line 1s to provide current information on cartographic materials, other publications of interest to map and geography librarians, meetings, related governmental activities, and map librarianship. It is a medium of communication for members of MAGERT and information of interest is welcome. The opinions expressed by contribu~ors are their own and do not necessarily represent those of the American Library Association and MAGERT. EDITOR: PRODUCTION MANAGER: Carol Collier Tamsen Emerson Documents, Maps, and Reference Department Microforms Dept. Cae Library Cae Library University of Wyoming university of Wyoming Box 3334 Box 3334 Laramie, WY 82071-3334 Laramie, WY 82071-3334 (307) 766-6245 (307) 766-5532 Bitnet: carolc@uwyo ADVERTISING MANAGER: CATALOGING EDITOR: Linda Newman Nancy Vick Mines Library Map & Geography Library University of Nevada-Reno University of Illinois Reno, NV 89557 Urbana, IL 61801 (702) 784-6596 (217) 333-0827 NEW BOOKS EDITOR: NEW MAPS EDITOR: Julia Gelfand Stephen Littrell Reference Department Beeghly Library Main Library Ohio Wesleyan University University of California Delaware, Ohio 43015 Irvine, CA 92712 (614) 369-4431 ext.
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CV-35 - Geovisualization | GIS&T Body of Knowledge 04.12.18, 12:47
Zurich Open Repository and Archive University of Zurich Main Library Strickhofstrasse 39 CH-8057 Zurich www.zora.uzh.ch Year: 2018 Geovisualization Cöltekin, Arzu ; Janetzko, Halldór ; Fabrikant, Sara I Abstract: Geovisualization is primarily understood as the process of interactively visualizing geographic information in any of the steps in spatial analyses, even though it can also refer to the visual output (e.g., plots, maps, combinations of these), or the associated techniques. Rooted in cartography, geovisualization emerged as a research thrust with the leadership of Alan MacEachren (Pennsylvania State University) and colleagues when interactive maps and digitally-enabled exploratory data analysis led to a paradigm shift in 1980s and 1990s. A core argument for geovisualization is that visual thinking using maps is integral to the scientific process and hypothesis generation, and the role of maps grew beyond communicating the end results of an analysis or documentation process. As such, geovisualization interacts with a number of disciplines including cartography, visual analytics, information visualization, scientific visualization, statistics, computer science, art-and-design, and cognitive science; borrowing from and contributing to each. In this entry, we provide a definition and a brief history of geovisualization including its fundamental concepts, elaborate on its relationship to other disciplines, and briefly review the skills/tools that are relevant in working with geovisualization environments. We finish the entry with a list of learning objectives, instructional questions, and additional resources. DOI: https://doi.org/10.22224/gistbok/2018.2.6 Posted at the Zurich Open Repository and Archive, University of Zurich ZORA URL: https://doi.org/10.5167/uzh-158851 Journal Article Published Version Originally published at: Cöltekin, Arzu; Janetzko, Halldór; Fabrikant, Sara I (2018).
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Section Three
1 2 3 4 5 6 7 8 SECTION THREE 9 10 11 12 Cartographic Aesthetics and Map Design 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 1 2 3 4 5 6 3.1 7 8 9 Introductory Essay: Cartographic 10 11 12 Aesthetics and Map Design 13 14 15 16 Chris Perkins, Martin Dodge and Rob Kitchin 17 18 19 20 Introduction offers only a partial means for explaining the deployment 21 of changing visual techniques. We ﬁnish with a consider- 22 If there is one thing that upsets professional cartographers ation of some of the practices and social contexts in which 23 more than anything else it is a poorly designed map; a aesthetics and designs are most apparent, suggesting the 24 map that lacks conventions such as a scale bar, or legend, or subjective is still important in mapping and that more 25 fails to follow convention with respect to symbology, name work needs to be undertaken into how mapping functions 26 placing and colour schemes, or is aesthetically unpleasing as a suite of social practices within wider visual culture.
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Cartograplzic Perspectives 1:1, March 1989 Was Passed and Signed by the Cartography Is the Science and Your Reply to Mr
4 cartograplzic perspectives 1:1, March 1989 was passed and signed by the Cartography is the science and your reply to Mr. Grigar of Texas. President. This Act requires the technology of analyzing and That leads into the third item. In Director of the Office of Charting interpreting geographic relation that letter you list the prices for and Geodetic Services, NOAA, in ships, and communicating the single copies of Which Map Is Best? consultation with the Director of results by means of maps. and Choosing a World Map. But the U.S. Geological Survey that reminded me of a fact less (USGS), to submit to the Congress A definition suitable for the ICA well-known, namely that Choosing a plan for preparing maps of the Dictionary: a World Map is available at a dis shoreline of the Great Lakes. count when 10 or more copies are The plan will define the respon Cartography is the science and ordered, made possible by gener sibilities of NOAA and USGS, set technology of analyzing, inter ous grants from several carto up a mapping schedule, with high preting and communicating graphic/ geographic organizations. risk areas (erosion or flooding) spatial relationships normally by The prices are as follows: given first priority, a completion means of maps." date, and recommended funding. Copies Cost The committee set up by NOAA (BCS Newsletter Number 1, 1989) and USGS expects to complete 10-19 $2.00 their report to Congress during Editors note: One wonders why the 20-29 $1.50 the next year. For further infor BCS is willing to admit to the general 30-39 $1.25 mation, contact: Mr.
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The Convergence of Spatial Technologies
Number 30, Spring 1998 cartographic perspectives 3 essay The Convergence of Spatial Technologies ere is a map test: Who is the biggest mapmaker in history? The Dutch Jeremy Crampton H map houses of Hondius or Mercator certainly published quite a few maps. But probably some government agency has published more-for Department of Geography and example, the CSGS has over 55,000 maps for the United States alone at the Earth Science 1:2.f,000 scale. Or maybe someone more recently? The Defense Mapping George Mason University Agency (now the l\:ational Imagery and Mapping Agency) put out thou Fairfax, VA 22030 sands of maps during the Gulf War, working in special 24-hour shifts (Clarke, 1992). Actually it is none of these. The biggest mapmaker in history, putting out more maps than anyone else, is undoubtedly MapQuest, an as yet little known unit of GeoSystems Global. According to the trade press, MapQuest produces over 1.5 million individual maps per day (lnterncf World, April 6, 1998). It is one of the reasons \.vhy CP Editor Mike Peterson claims that the Internet sees the publication of as many as 10 million maps per day and leads him to say that the impact of Internet mapping "will like!~· be greater than that of the printing press" (Peterson, 1997a, p. 2). Despite this productivity, MapQuest does not carry the ''wciglit" of more traditional cartography. Undoubtedly, one of the reasons for this is that its maps are mostly basic street maps automatically generated from databases, are fairly poorly designed, and are at low resolutions.
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Big Country, Big Issues: Canada‘S Environment, Culture, and History
Perspectives Big Country, Big Issues: Canada‘s Environment, Culture, and History Edited by NADINE KLOPFER CHRISTOF MAUCH 2011 / 4 RCC Perspectives Big Country, Big Issues: Canada‘s Environment, Culture, and History Edited by Nadine Klopfer and Christof Mauch 2011 / 4 2 RCC Perspectives Contents 04 Foreword Nadine Klopfer and Christof Mauch 06 A Little Essay on Big: Towards a History of Canada’s Size Alan MacEachern 16 Learning to Drive the Yukon River: Western Cartography and Athapaskan Story Maps David Neufeld 44 Montreal and Its Waters: An Entangled History Michèle Dagenais 60 Nutritional Science, Health, and Changing Northern Environments Liza Piper 86 A Lake of Opportunity: Rethinking Phosphorus Pollution and Resource Scarcity Andrea E. Ulrich 101 Pragmatism and Poetry: National Parks and the Story of Canada Claire Elizabeth Campbell Big Country, Big Issues 3 About the Authors Claire Elizabeth Campbell is an associate professor and the coordinator of the Cana- dian Studies program at Dalhousie University. Michèle Dagenais is a history professor at the Université de Montréal and an expert in urban history. Nadine Klopfer is a lecturer in North American history at the Amerika-Institut of LMU Munich. Alan MacEachern teaches history at the University of Western Ontario and is the director of NiCHE: Network in Canadian History and Environment / Nouvelle initiative canadienne en histoire de l’environnement. Christof Mauch is director of the Rachel Carson Center for Environment and Society at LMU Munich. David Neufeld is the Yukon and Western Arctic historian for Parks Canada. Liza Piper is an associate professor of history at the University of Alberta, Canada.
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Paulo Raposo, Ph.D
Paulo Raposo, Ph.D. Department of Geo-Information Processing (GIP) Faculty of Geo-Information Science and Earth Observation (ITC), The University of Twente ITC, Hengelosestraat 99, 7514 AE, Enschede, The Netherlands [email protected], [email protected], Phone +31 5 3489 9348 paulojraposo.github.io orcid.org/0000-0002-0699-8145 researchgate.net/prole/Paulo_Raposo2 scholar.google.com/citations?user=WCF5qMAAAAAJ github.com/paulojraposo gis.stackexchange.com/users/40481/paulo-raposo quora.com/prole/Paulo-Raposo-3 Curriculum Vitæ 2021-06-01 Employment Assistant Professor (Universitair Docent) of Geovisualization, Department of Geo-information Processing (GIP), Faculty of Geo-Information Science and Earth Observation (ITC), The University of Twente. September 1st, 2019 to present. Assistant Professor of Geographic Information Science, Department of Geography, The University of Tennessee, Knoxville. August 15th, 2016 to July 31st, 2019. Tenure-Track. Education Ph.D., August 13th 2016, Geography, Department of Geography, The Pennsylvania State University. Specialization in Cartog- raphy. Multiscale Raster Treatments for Map Generalization. Advised by Prof. Cynthia A. Brewer. MS, August 13th 2011, Geography, Department of Geography, The Pennsylvania State University. Specialization in Cartogra- phy. Scale-Speciﬁc Automated Map Line Simpliﬁcation by Vertex Clustering on a Hexagonal Tessellation. Advised by Prof. Cynthia A. Brewer. Honours B.Sc. With High Distinction, June 19th 2008, Archaeological Science, Department of Anthropology, with GIS Minor, Department of Geography and Program in Planning, University of Toronto. Programming & Computing Procient in Python, JavaScript, PHP, and Java programming languages: data visualization, cartography, spatial computing, web and app development, image analysis. Procient with GIS, Linux, graphical, and analysis software packages, libraries, and APIs: ArcGIS, QGIS, D3, R, GDAL & OGR, Cesium, NASA WorldWind, Anaconda, matplotlib, numpy, networkx, MySQL, LATEX.
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Cartographic Reason, Mapping and the Geo-Coded World John Pickles
A History of Spaces Cartographic reason, mapping and the geo-coded world John Pickles I~ ~~O~!!~~i~~UP LONDON AND NEW YORK First published 2004 by Routledge For Lynn, Leon and my parents, and for three teachers: 11 New Fetter Lane, London EC4P 4EE Roger Downs, Peter Gonld and Joseph Kockelmans Simultaneously published in the USA and Canada by Routledge 29 West 35th Street, New York, NY 10001 Routledge is an imprint of the Taylor & Francis Group © 2004 John Pickles Typeset in Times by Wearset Ltd, Boldon, Tyne and Wear Printed and bound in Great Britain by The Cromwell Press, Trowbridge, Wiltshire All rights reserved. No part of this book may be reprinted or reproduced or utilized in any form or by any electronic, mechanical, or other means, now known or hereafter invented, including photocopying and recording, or in any information storage or retrieval system, without permission in writing from the publishers. British Library Cataloguing in Publication Data A catalogue record for this book is available from the British Library Library of Congress Cataloging in Publication Data Pickles, John, 1960- A history of spaces: cartographic reason, mapping, and the geo coded world! John Pickles. p.cm. Includes bibliographical references and index. 1. Cartography. L Title. GA105.3.P522004 526-dc21 2003008283 ISBN 0-415-14497-3 (hbk) ISBN 0-415-14498-1 (pbk) Contents One pylon marks the spot List of illustrations ix BBC News Monday, 15 October 200111:55GMT, Preface and acknowledgements http://news.bbc.co.uklhi/english/uk/england/newsid_160000011600225.stm xi A field in North Lincolnshire is the most featureless part of the UK, according to a new Ordnance Survey (OS) map.
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Handbook of the American Association of Geographers
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Color Use Guidelines for Mapping and Visualization
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Download Download
68 cartographic perspectives Number 51, Spring 2005 This list represents a compilation of students, both cartography and/or geography, that are members of the Robinson Academic Family Tree. Any omissions are entirely unintentional, and reflect more so the difficulties in finding historical documentation of “who was whose” student. ROBINSON FIRST SECOND THIRD FOURTH GENERATION GENERATION GENERATION GENERATION Arthur Robinson (PhDs) Daniele Ehrlich 1992 Kenneth McGuire 1992 Thomas Robert Weir 1951 Thomas Henderson 1996 Walter Frank Wood 1951 Robert Frohn 1997 Robert Nelson Young 1954 Thomas Loveland 1998 James John Flannery 1956 James Verdin 1999 Nasr Al-Sahhaf 2000 James Flannery (PhDs) Jennifer Gebelein 2001 David Block 1983 John Estes (MAs) David Howes 1983 Douglas Stow 1978 Benjamin Adetiba 1985 Peggy O’Neill 1980 James Flannery (MAs) Tara Torburn 1980 Hector Zamora 1967 Michael Wilson 1981 Charles Gloor 1968 Donald Taube 1981 Donald Rambadt 1968 Ci-Xiang Zhan 1981 Abhaya Attanayake 1968 Raul Ortega 1981 Wayne Sylvester 1971 Timothy Minor 1982 Terrence Taylor 1973 Susan Bertke 1982 John Jansen 1976 John Carlson 1982 Chris Baruth 1979 Elaine C. Ezra 1982 Charles Wells 1982 Charlene Sailer 1982 Kerry Antoniewicz 1987 Edward Almanza 1983 David Eckhardt 1983 Norman J. W. Thrower 1958 Fred Mertz 1984 Elizabeth Ritter 1985 Norman Thrower (PhDs) Rowena Carlson 1985 John Estes 1969 Lisa Mann 1985 Michael Cosentino 1986 John Estes (PhDs) Christiane Schmullius 1986 Thomas Logan 1983 Timothy Wade 1986 Stephen Yool 1985 David Stoms 1986 Timothy
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Flow Map Layout
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