Σάββατο 9 Ιανουαρίου 2016

Time and GIS: Ways of Representing Time on a Map



BY CAITLIN DEMPSEY MORAIS




The famous geographer Immanuel Kant maintained that geography was the study of knowledge in a location, while history was the study of knowledge in time. Since a map is a stationary object that’s meant to represent a physical location, it’s tempting to think that it wouldn’t allow you to display changes over time the way an animation or a graph would. So, if you have to compare information in a given place and over a period of time at the same time, how can you do it?
Spatialtemporal Visualization – Techniques for Representing Time on a Map

Spatialtemporal visualization are ways to illustrate changes in an area over time on a map. The challenge of showing time on interactive maps (think web mapping) is easier. Unlike printed maps, these maps can be made with built in animations that allow the user to see changes in an area over time. Some internet maps have sliders that allow the viewer to see a snapshot of the exact point in time that they want to know about, simply by sliding the slider to the appropriate date like this European history map. Others are animated, and allow the viewer to see a time lapse illustration that covers a set time period.

Applications like myHistro adds a timeline to Google Maps, which allows the user to navigate through time to see the spatial connection. Users can register to access the free application and build their own time-based spatial histories.


SPATIALTEMPORAL MAPPING IN GOOGLE MAPS USING MYHIST

Showing Time on a Static Map
Needless to say, hard copy maps don’t have this advantage, which means that cartographers need to get a little more creative with their mapping to show changes in time that occur within the same geographic space. Cartographers have to contend with showing spatial change over time, which is four-demensional, on a two-dimensional map. To incorporate time on a singular map (as opposed to showing two or more maps side by side to demonstrate temporal change) takes some imagination to visualize the time-space connectivity. Shading, border thickness, and timelines have all be used with mixed success to show changes in space over time.


THE EASIEST WAY TO SHOW SPATIAL CHANGE OVER TIME: SIDE BY SIDE MAPS EACH SHOWING A SLICE OF TIME.

One main reason why a map user would need to see a graphical representation of time on their map would be to understand how a given area has changed over the specified period. This can be to see something like how a country or state’s borders have altered over time, or how natural features in an area have changed. There are a couple of ways that map makers can demonstrate how areas change, usually by using varying borders, shading, or even arrows.

If you’re looking to see how an area’s borders have changed over time, then visually distinguishing between “before” and “after” borders is important. In situations like that, using different line weights to represent the “before” and “after” information is a commonly used tactic. The original borders f the U.S. prior to the Louisiana Purchase, for example, can be represented using a dotted line. The borders of the U.S. afterward can be represented as a solid one. This is probably the most common way of demonstrating changes in political borders from one era to the next.


Shading and coloring are other common waya of illustrating how areas change over time. It’s especially useful for demonstrating things like deforestation and habitat changes. In these situations, the original range is usually designated by one color, with the new range overlaid in another color. On black and white maps, shading or cross-hatching is usually used instead of color.

In 1944, a map showing changes to the lower Mississippi River was published by the U.S. Army Corps of Engineers. Titled “Ancient Course of the Mississippi Meander Belt”, color coding allowed the cartographer the ability to show the radically different flows of the river over time.

ANCIENT COURSE OF THE MISSISSIPPI MEANDER BELT, US ARMY CORPS OF ENGINEERS, 1944.

White showed the course of the river in 1944, green for 1880, red for 1820, and yellow for 1765.


ZOOMED IN VIEW OF ANCIENT COURSE OF THE MISSISSIPPI MEANDER BELT, US ARMY CORPS OF ENGINEERS, 1944.

Sometimes, maps are used to illustrate motion over time. In these situations, time and distance can be represented by arrows or lines showing the direction of movement, and dots showing the origin point, end point, and significant stops in between, all labeled with dates. This technique is especially useful when plotting the migration of a group, like a flock of birds or a nomadic population.

Charles Minard created one of the more famous displays of spatialtemporal visualization. In 1861, Charles Joseph Minard, a french engineer created his now famous flow map that graphed out the ill-fated march of 1812 by Napoleon’s soldiers to and from Moscow during the brutal winter months. Minard cleverly and poignantly showed the horrific morbidity of Napoleon’s soldiers over time and space as they marched to Russia and then back to Poland.


CARTE FIGURATIVE DES PERTES SUCCESSIVES EN HOMMES DE L’ARMÉE FRANÇAISE DANS LA CAMPAGNE DE RUSSIE 1812-1813 BY CHARLES MINARD, 1861. CLICK ON GRAPH FOR A LARGER IMAGE.

Labeling maps that demonstrate changes over time is important. Usually, the before and after regions will be labeled right on the map itself, space permitting. Otherwise, a map key will explain which borders, shading, or colors represent which point in time.

One of the most important things for map users to understand when they’re interpreting the data from a map of a region over time is how the data was sampled. When it comes to mapping changes to a region, data can be taken at regular intervals (for example, every ten years), or only when a change has taken place (such as before and after a war). This is important when it comes to mapping subjects like changes in ecosystems- a map of a forest shrinking over a period of fifty years might look just like a map of a forest shrinking after a sudden forest fire, but the actual pieces of sample data that those maps are based on are very different from each other.

Varying lines, different colors, cross-hatching, and arrows and points are just a few easy ways to represent changes in a geographical area. There are plenty of ways for creative cartographers to use maps to show changes in a region over time, no matter whether they’re tracking a shrinking rainforest, a growing empire, or a migrating butterfly.

Further articles and applications on the analysis of time in GIS
AirTime
The City of Philadelphia Police Department, GIS Services Group and Health Department have begun developing a set of applications using MapObjects and Spatial Analyst that enable visualization of point and GRID data from air quality and crime data. This article dicusses this project.

Apoala
The Apoala Project has been undertaken to develop an integrated spatio-temporal geographic information, visualization, and analysis system with the goal of supporting complex exploratory analysis of environmental data.

Mapping Time: An analysis of the cartographic problem of representing spatiotemporal informationDissertation by Irina Vasiliev of Syracuse University on the problem of representing time cartographically. The dissertation looked at the different categories of time used by cartographers.

Time-integrative GIS
This website is a complement to the book “Time-integrative Geographic Information Systems – Management and Analysis of Spatio-Temporal Data” written by Thomas Ott and Frank Swiaczny. The website provides additional resources on the subject, such as a collection of links and a bibliography.

Time, Point and Space
Subtitled “Towards a Better Analysis of Wildlife Data in GIS”, this is an online version of a dissertation by Stephan Imfeld. This thesis is trying to provide a new perspective on how to analyse moving point objects within GIS.

Of Todes and Worms
Depicting spatial analysis on a temporal level is an eluded but much soft after technique in GIS. This paper provides a brief overview into the history of time analysis in GIS as well as looking at spatial-temporal techniques using ArcInfo.

Article first published on March 21, 2009 and updated August 29, 2012.

New Edition of Designing Better Maps: A Guide for GIS Users



BY CAITLIN DEMPSEY MORAIS



A new edition of Designing Better Maps: A Guide for GIS Users was recently released by Esri Press. The second edition is authored by Cynthia Brewer, a professor and head of the geography department at Pennsylvania State University. If the name seems familiar, among her many achievements in this industry, Brewer is also one of the creators of ColorBrewer, an online app that provides “color advice for cartography” which is helpful for many uses including stylizingcolor-blind maps.


This map design edition focuses on “the basics of cartography, including layout design; working with basemaps, legends, scales, and projections; selecting colors and type; and customizing symbols.” (Esri Press release). Per Brewer, “This book helps you develop the graphic skills you need for mapmaking.”

If you want a first person perspective, Gretchen Peterson has a review of Designing Better Maps: A Guide for GIS Users on her site. Esri has also posted a short two minute video providing an overview of the book.

Designing Better Maps: A Guide for GIS Users is available in print (ISBN: 9781589484405, 250 pages, $59.99), or as an e-book (ISBN: 9781589484375, 250 pages, $49.99). The book is available at online retailers worldwide.




Πέμπτη 7 Ιανουαρίου 2016

First Ever Digital Geologic Map of Alaska Published



A new digital geologic map of Alaska is being released today providing land users, managers and scientists geologic information for the evaluation of land use in relation to resource extraction, conservation, natural hazards and recreation.

The map gives visual context to the abundant mineral and energy resources found throughout the state in a beautifully detailed and accessible format.

“I am pleased that Alaska now has a state-wide digital map detailing surface geologic features of this vast region of the United States that is difficult to access,” said Suzette Kimball, USGS newly-confirmed director. “This geologic map provides important information for the mineral and energy industries for exploration and remediation strategies. It will enable resource managers and land management agencies to evaluate resources and land use, and to prepare for natural hazards, such as earthquakes.”

“The data contained in this digital map will be invaluable,” said National Park Service Director Jonathan B. Jarvis. “It is a great resource and especially enhances the capacity for science-informed decision making for natural and cultural resources, interpretive programs, and visitor safety.”

“A better understanding of Alaska’s geology is vital to our state’s future. This new map makes a real contribution to our state, from the scientific work it embodies to the responsible resource production it may facilitate. Projects like this one underscore the important mission of the U.S. Geological Survey, and I’m thankful to them for completing it,” said Sen. Lisa Murkowski, R-Alaska.

This map is a completely new compilation, carrying the distinction of being the first 100 percent digital statewide geologic map of Alaska. It reflects the changes in our modern understanding of geology as it builds on the past. More than 750 references were used in creating the map, some as old as 1908 and others as new as 2015. As a digital map, it has multiple associated databases that allow creation of a variety of derivative maps and other products.

“This work is an important synthesis that will both increase public access to critical information and enhance the fundamental understanding of Alaska's history, natural resources and environment,” said Mark Myers, Commissioner of Alaska’s Department of Natural Resources. “I applaud the collaborative nature of this effort, including the input provided by the Alaska Division of Geological and Geophysical Surveys, which will be useful for natural disaster preparation, resource development, land use planning and management, infrastructure and urban planning and management, education, and scientific research.”


Geologists and resource managers alike can utilize this latest geologic map of Alaska, and a lay person can enjoy the colorful patterns on the map showing the state’s geologic past and present.

More than other areas of the United States, Alaska reflects a wide range of past and current geologic environments and processes. The map sheds light on the geologic past and present. Today, geologic processes are still very important in Alaska with many active volcanoes, frequent earthquakes, receding and advancing glaciers and visible climate impacts.

“This map is the continuation of a long line of USGS maps of Alaska, reflecting ever increasing knowledge of the geology of the state,” said Frederic Wilson, USGS research geologist and lead author of the new map. “In the past, starting in 1904, geologic maps of Alaska were revised once a generation; this latest edition reflects major new mapping efforts in Alaska by the USGS and the Alaska state survey, as well as a revolution in the science of geology through the paradigm shift to plate tectonics, and the development of digital methods. Completion of this map celebrates the 200th anniversary of world's first geologic map by William Smith of England in 1815.” 



The Alaska Geologic Map shows the generalized geology of the state, each color representing a different type or age of rock. This map detail, of the Anchorage area, shows the city spread out on a plain of loose glacial deposits shown in yellow, and the bedrock making up the hillsides of Anchorage shown in green and brown. The rocks shown in green, called the Valdez Group, are sedimentary rocks formed in a trench 65 to 75 million years ago from thousands of undersea debris flows similar to the modern Aleutian trench where oceanic crust dives under continental crust (a subduction zone). The rocks shown in brown on the map are a chaotic mix of rock types called the McHugh Complex that were also formed about the same time, adjacent to this ancient subduction zone. Some time after deposition of the Valdez Group, hot fluids formed gold-bearing quartz veins; the veins were mined starting in the 1890's. The rocks were pushed up, and attached (accreted) to North America through plate tectonic forces in the past 65 million years. The dotted line passing through the east side of Anchorage is the approximate trace of the Border Ranges Fault system, the boundary between the accreted rocks and the rest of the continent.



Contact Information:
Email Contact
Phone: 907-786-7448

Email Contact
Phone: 650-329-4046

Hexagon Geospatial Launches IGNITE "M.App of the Future" Challenge



Hexagon Geospatial today announced IGNITE -- a first of its kind competition with $260,000 in prizes for innovations that utilize the Hexagon Smart M.App® platform to build dynamic business applications combining fresh location information and powerful analysis to visualize answers to real-world dilemmas.


Open to competitors worldwide, IGNITE utilizes the HeroX crowdsourcing model designed to bring about radical business, technological and social innovation benefitting local and global communities, inspiring new industries and catalyzing markets.

"IGNITE is an opportunity to revolutionize the M.App by expanding beyond the typical geospatial marketplace to encourage mainstream development of solutions that utilize geospatial information to solve global issues," said Hexagon Geospatial President, Mladen Stojic. "Winning ideas will utilize the popular Hexagon Smart M.App platform to connect to timely geospatial information and build elegant solutions that communicate not just what was, but also what is, and what can be. The best solutions will focus on areas that are important to the future and sustainability of our planet and society such as finance, food, safety, infrastructure, health and conservation."


Preparing to Enter the Competition: IGNITE Sessions Competitors can find judging criteria and enter the competition through May 1, 2016 by submitting business plans for innovative ideas at the IGNITE challenge website. Hexagon Geospatial will help participants prepare to enter the competition with a series ofIGNITE Sessions -- one-day workshops with subject matter and Hexagon Smart M.App experts offered globally from February 15 to April 15, 2016.

Judging and Prizes
Twenty finalists will be selected and announced at HxGN LIVE Anaheim, Hexagon's annual international conference in June 2016. Finalists will then have until August 31, 2016 to build, deploy and submit complete, executable Hexagon Smart M.Apps using M.App Studio on the M.App Exchange.

The top 3 finalists will be announced in December, 2016 and awarded the following cash prizes:
  • 1st Place: $100K
  • 2nd Place: $50K
  • 3rd Place: $25K

The remaining 17 finalists will each receive $5,000 prizes for their submissions.

"The HeroX crowdsourcing methodology is ideal for bringing new levels of innovation to exciting and broadly applicable technology like the Hexagon Smart M.App platform," said HeroX CEO, Christian Cotichini. "We are very excited about the launch of the IGNITE challenge. The competition is open to anyone with a great idea for using geospatial information to solve pressing global issues, so we expect hundreds of exceptional entries from all over the world."

About the Hexagon Smart M.App ® The map of the future is not a map. It is a dynamic information experience, a Hexagon Smart M.App. These smart cloud applications employ targeted workflows to distill fresh, geospatial content into 360° business analytics and meaningful visualizations to deliver answers as an online information experience. This game-changing platform is revolutionizing the way we envision, experience and communicate geographic information.

About Hexagon Geospatial Hexagon Geospatial helps you make sense of the dynamically changing world. Hexagon Geospatial provides the software products and platforms to a large variety of customers through direct sales, channel partners and other Hexagon businesses. For more information, visitwww.hexagongeospatial.com or contact us at marketing@hexagongeospatial.com.

Hexagon Geospatial is part of Hexagon, a leading global provider of information technologies that drive quality and productivity improvements across geospatial and industrial enterprise applications. Hexagon's solutions integrate sensors, software, domain knowledge and customer workflows into intelligent information ecosystems that deliver actionable information, automate business processes and improve productivity. They are used in a broad range of vital industries. Hexagon (Nasdaq Stockholm: HEXA B) has more than 16,000 employees in 46 countries and net sales of approximately 3.1bn USD.
Learn more at hexagon.com.

About HeroX http://www.herox.com Founded in 2013, HeroX exists at the intersection of crowdsourcing, competition and collaboration, using each to drive positive change. A suite of tools and services to help spark and build awareness for new solutions to social and economic challenges, the HeroX incentive prize platform connects funding companies and individuals with problem solvers.
Twitter: @Iamherox Facebook: https://www.facebook.com/IamHeroX

Image Available:http://www.marketwire.com/library/MwGo/2016/1/6/11G077710/Images/Hex_Geo_IGNITE_Image_wire-b3e7c658bf2db154b8dadffe1172ab11.jpg




Media Contacts: 
Hexagon Geospatial 
Jay Pongonis Communications Manager 
770-776-3489

Lynda Kaye Kaye 
Public Relations for HeroX 
250-266-5293 

Bluesky thermal maps highlight heat loss from homes and businesses



A night time thermal imaging project is helping the UK’s Shropshire Council improve energy efficiency and affordable warmth levels for residents and businesses across the county. Undertaken by aerial mapping company, Bluesky, and funded by the Department of Energy and Climate Change (DECC), the thermal survey used specialist sensors to accurately record heat loss measurements from buildings at night. The resulting colour coded heat loss maps are being made available online, via the council’s website, for residents and business owners to check the performance of their homes and business premises.

Malcolm Price, Shropshire Council’s Cabinet member responsible for housing, said: “Aerial thermal imaging provides a unique opportunity to collect up to date and accurate measurements for every property within the target zone. The data allows us and our partners to identify specific properties at risk of fuel poverty, and better focus our resources and advice to vulnerable households.

“The easy to use colour coded maps are also an effective engagement tool in the promotion of energy efficiency and affordable warmth projects. Links to further energy efficiency advice, guidance and the availability of financial assistance will also be made available through our website.”


Thermal surveys, such as the one commissioned by Shropshire Council, are carried out during the winter months, in the early evening and after sunset, to capture the widest variations in temperature that can occur as a result of poor insulation or excessive energy consumption. Bluesky uses a ‘microbolometer’ thermal camera specifically designed for airborne surveying and ideal for use in aircraft flying at night. It allows measurements of heat loss from property roofs to be recorded with higher precision and more consistent results than other systems currently in use in the UK.

The resulting data was delivered to the council ready for use in their Geographic Information System and online mapping portal. By combining the Bluesky data with other sources of intelligence, such as demographic profiles, housing stock surveys and benefits claims, the council hopes to be able to better focus resources and advice to vulnerable and at risk households.

Shropshire thermal maps are also available athttp://www.shropshire.gov.uk/private-sector-housing/aerial-thermal-survey-for-shropshire/, where householders can check the performance of their own property and even compare this with similar properties nearby. Households highlighted as having excessive heat loss – shown as yellow in the map window – can then access further advice and guidance from the council’s Keep Shropshire Warm webpage ( https://www.shropshire.gov.uk/private-sector-housing/owner-occupied-housing/keep-shropshire-warm-energy-saving-advice/) where they can apply for various types of financial assistance to help them improve their property’s energy efficiency and affordable warmth.

Contacts:
Bluesky
tel +44 (0)1530 518 518
www.bluesky-world.com