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This informative book helps students learn to follow a road map, including using the grid system, legend, and compass rose. Students are also taught to understand and use a scale on a map. Each topic arms students with useful knowledge about reading road maps. A follow-up activity encourages readers to use a map to write directions for a friend.
Audisee® eBooks with Audio combine professional narration and text highlighting for an engaging read aloud experience! Ever wonder what route would get you from coast to coast the fastest? Or where to find camping spots on a road trip? Road maps and GPS give details about routes and sites. But how do you use them? And how can you make the most of these tools to get the information you need? Read on to become a pro at using GPS and road maps! As part of the Searchlight BooksTM collection, this series explores the geographical question—What Do You Know about Maps? Informative text, compelling photos, and engaging captions will help you expand your map knowledge!
Spatial trajectories have been bringing the unprecedented wealth to a variety of research communities. A spatial trajectory records the paths of a variety of moving objects, such as people who log their travel routes with GPS trajectories. The field of moving objects related research has become extremely active within the last few years, especially with all major database and data mining conferences and journals. Computing with Spatial Trajectories introduces the algorithms, technologies, and systems used to process, manage and understand existing spatial trajectories for different applications. This book also presents an overview on both fundamentals and the state-of-the-art research inspired by spatial trajectory data, as well as a special focus on trajectory pattern mining, spatio-temporal data mining and location-based social networks. Each chapter provides readers with a tutorial-style introduction to one important aspect of location trajectory computing, case studies and many valuable references to other relevant research work. Computing with Spatial Trajectories is designed as a reference or secondary text book for advanced-level students and researchers mainly focused on computer science and geography. Professionals working on spatial trajectory computing will also find this book very useful.
GPS For Dummies gives new meaning to finding yourself. In fact, with a GPS (global positioning system) receiver, you can determine precisely where you are anywhere on this planet. If you’re are planning on buying a GPS receiver or if you have one and want to get your money’s worth, this guide tells you what you need to know, including: Basic GPS principles and concepts such as waypoints, routes, tracks, and coordinate systems Recommended features for GPS receivers to be used in various types of activities, including hiking, mountain biking, cross country skiing, geocaching, hunting, ATVing, mapping, and more How to do digital mapping on your computer, including software packages you can use to work with aerial photos, topographic maps, and road maps The main providers of digital map data for the U.S. and their Web sites The scoop on geocaching—a high-tech treasure hunt Written by Joel McNamara, avid outdoorsman, adventure racer, search and rescue team member, and author of Secrets of Computer Espionage, GPS for Dummies is ideal for both ordinary travelers and exotic explorers. It covers a world of GPS info such as: Choosing features for a GPS receiver, including the screen, an alarm, built-in maps, an electric compass, an altimeter, antennas, interface modes, and more Systems for traveling on the main roads and systems for exploring off the beaten path Using GPS with a PDA (personal digital assistant) Computer requirements for different mapping choices Topographic map software from Maptech, DeLorme, and National Geographic that’s for off-road use Using Web-hosted mapping services, including street maps, topographic maps, aerial photos, and U.S. government-produced maps Incorporating GPS receivers into outdoor workouts, with tips for specific sports including cycling, golf, rowing, and more A companion Web site has links to all kinds of free maps and resources. So explore on your computer and then explore for real! With GPS for Dummies, you’ll find yourself having adventures!
Maps have power--they can instruct, make life easier, mislead, or even lie. This engaging text provides the tools to read, analyze, and use any kind of map and assess its strengths and weaknesses. Requiring no advanced math skills, the book presents basic concepts of symbolization, scale, coordinate systems, and projections. It gives students a deeper understanding of the types of maps they encounter every day, from turn-by-turn driving directions to the TV weather report. Readers also learn how to use multiple maps and imagery to analyze an area or region. The book includes 168 figures, among them 22 color plates; most of the figures can be downloaded as PowerPoint slides from the companion website. Appendices contain a glossary, recommended resources, a table of commonly used projections, and more.
This new Handbook unites cartographic theory and praxis with the principles of cartographic design and their application. It offers a critical appraisal of the current state of the art, science, and technology of map-making in a convenient and well-illustrated guide that will appeal to an international and multi-disciplinary audience. No single-volume work in the field is comparable in terms of its accessibility, currency, and scope. The Routledge Handbook of Mapping and Cartography draws on the wealth of new scholarship and practice in this emerging field, from the latest conceptual developments in mapping and advances in map-making technology to reflections on the role of maps in society. It brings together 43 engaging chapters on a diverse range of topics, including the history of cartography, map use and user issues, cartographic design, remote sensing, volunteered geographic information (VGI), and map art. The title’s expert contributions are drawn from an international base of influential academics and leading practitioners, with a view to informing theoretical development and best practice. This new volume will provide the reader with an exceptionally wide-ranging introduction to mapping and cartography and aim to inspire further engagement within this dynamic and exciting field. The Routledge Handbook of Mapping and Cartography offers a unique reference point that will be of great interest and practical use to all map-makers and students of geographic information science, geography, cultural studies, and a range of related disciplines.
The book provides an overview of the state-of-the-art of map construction algorithms, which use tracking data in the form of trajectories to generate vector maps. The most common trajectory type is GPS-based trajectories. It introduces three emerging algorithmic categories, outlines their general algorithmic ideas, and discusses three representative algorithms in greater detail. To quantify map construction algorithms, the authors include specific datasets and evaluation measures. The datasets, source code of map construction algorithms and evaluation measures are publicly available on http://www.mapconstruction.org. The web site serves as a repository for map construction data and algorithms and researchers can contribute by uploading their own code and benchmark data. Map Construction Algorithms is an excellent resource for professionals working in computational geometry, spatial databases, and GIS. Advanced-level students studying computer science, geography and mathematics will also find this book a useful tool.
This book highlights some of the unique aspects of spatio-temporal graph data from the perspectives of modeling and developing scalable algorithms. The authors discuss in the first part of this book, the semantic aspects of spatio-temporal graph data in two application domains, viz., urban transportation and social networks. Then the authors present representational models and data structures, which can effectively capture these semantics, while ensuring support for computationally scalable algorithms. In the first part of the book, the authors describe algorithmic development issues in spatio-temporal graph data. These algorithms internally use the semantically rich data structures developed in the earlier part of this book. Finally, the authors introduce some upcoming spatio-temporal graph datasets, such as engine measurement data, and discuss some open research problems in the area. This book will be useful as a secondary text for advanced-level students entering into relevant fields of computer science, such as transportation and urban planning. It may also be useful for researchers and practitioners in the field of navigational algorithms.
In this work we present a system to fully automatically create a highly accurate visual feature map from image data acquired from within a moving vehicle. Moreover, a system for high precision self localization is presented. Furthermore, we present a method to automatically learn a visual descriptor. The map relative self localization is centimeter accurate and allows autonomous driving.
This book provides a broad overview of both the technical challenges in sensor network development, and the real-world applications of distributed sensing. Important aspects of distributed computing in large-scale networked sensor systems are analyzed in the context of human behavior understanding, including topics on systems design tools and techniques. Additionally, the book examines a varied range of applications. Features: contains valuable contributions from an international selection of leading experts in the field; presents a high-level introduction to the aims and motivations underpinning distributed sensing; describes decision-making algorithms in the presence of complex sensor networks; provides a detailed analysis of the design, implementation, and development of a distributed network of homogeneous or heterogeneous sensors; reviews the application of distributed sensing to human behavior understanding and autonomous intelligent vehicles; includes a helpful glossary and a list of acronyms.