SafeGraph Places provides baseline information for every record in the SafeGraph product suite via the Places schema and polygon information when applicable via the Geometry schema. The current scope of a place is defined as any location humans can visit with the exception of single-family homes. This definition encompasses a diverse set of places ranging from restaurants, grocery stores, and malls; to parks, hospitals, museums, offices, and industrial parks. Premium sets of Places include apartment buildings, Parking Lots, and Point POIs (such as ATMs or transit stations).

SafeGraph Places is a point of interest (POI) data offering with varying coverage depending on the country. Note that address conventions and formatting vary across countries. SafeGraph has coalesced these fields into the Places schema.

SafeGraph provides clean and accurate geospatial datasets on 51M+ physical places/points of interest (POI) globally. Hundreds of industry leaders like Mapbox, Verizon, Clear Channel, and Esri already rely on SafeGraph POI data to unlock business insights and drive innovation. Easily ingest this data to power your map products today.

The interactive map creation tools market is experiencing robust growth, driven by increasing demand for visually engaging data representation across diverse sectors. The market's value is estimated at $2 billion in 2025, exhibiting a Compound Annual Growth Rate (CAGR) of 15% from 2025 to 2033. This growth is fueled by several factors, including the rising adoption of location-based services, the proliferation of readily available geographic data, and the growing need for effective data visualization in business intelligence and marketing. The individual user segment currently holds a significant share, but corporate adoption is rapidly expanding, propelled by the need for sophisticated map-based analytics and internal communication. Furthermore, the paid use segment is anticipated to grow more quickly than the free use segment, reflecting the willingness of businesses and organizations to invest in advanced features and functionalities. This trend is further amplified by the increasing integration of interactive maps into various platforms, such as business intelligence dashboards and website content. Geographic expansion is also a significant growth driver. North America and Europe currently dominate the market, but the Asia-Pacific region is showing significant promise due to rapid technological advancements and increasing internet penetration. Competitive pressures remain high, with established players such as Google, Mapbox, and ArcGIS StoryMaps vying for market share alongside innovative startups offering specialized solutions. The market's restraints are primarily focused on the complexities of data integration and the technical expertise required for effective map creation. However, ongoing developments in user-friendly interfaces and readily available data integration tools are mitigating these challenges. The future of the interactive map creation tools market promises even greater innovation, fueled by developments in augmented reality (AR), virtual reality (VR), and 3D visualization technologies. We expect to see the emergence of more sophisticated tools catering to niche requirements, further driving market segmentation and specialization. Continued investment in research and development will also play a crucial role in pushing the boundaries of what's possible with interactive map creation. The market presents opportunities for companies to develop tools which combine data analytics and interactive map design.

Park Tiles Standard is a general-use basemap produced by the U.S. National Park Service. NPS park unit extents and labels are emphasized over contextual features. The Park Tiles suite of basemaps is intended to extend to the web the strong NPS cartographic tradition developed at the Harpers Ferry Center, and incorporate NPS graphic identity standards. Park Tiles Standard most closely replicates the look and feel of park brochure maps. Data from multiple sources combine to produce a seamless map of NPS park units across all available zoom levels. NPS data is used to depict roads, trails, buildings, parking areas, and related features within park boundaries; data coverage may be incomplete for some parks at this time. OpenStreetMap (OSM) from Mapbox provides contextual data outside of park boundaries. Hydrographic features are sourced from the National Hydrography Dataset within park boundaries, and from OSM data outside park boundaries. In addition, Mapbox vector hillshading data is visible at smaller scales/lower zooms. The National Park Service boundaries shown do not all pull from the official NPS source, maintained by the Land Resources Division, and should not be considered authoritative. When using Park Tiles basemaps, please cite the National Park Service, © Mapbox, and © OpenStreetMap.

The custom digital map service market is experiencing robust growth, driven by the increasing demand for location-based services across diverse sectors. The market, estimated at $8 billion in 2025, is projected to expand significantly over the forecast period (2025-2033), fueled by a compound annual growth rate (CAGR) of approximately 15%. This expansion is largely attributed to several key drivers. Firstly, the automotive industry's reliance on advanced navigation and driver-assistance systems is a major catalyst. Secondly, the burgeoning location services sector, encompassing ride-sharing, delivery services, and location-based advertising, fuels considerable demand for customized map solutions. Further propelling growth is the rise of business analytics, where customized maps provide invaluable insights into spatial data, optimizing logistics, resource management, and market analysis. Finally, the ongoing development of real-time map data technologies, offering dynamic updates and high accuracy, significantly enhances the value proposition of these services. While data security and privacy concerns pose some challenges, the overall market outlook remains positive. The market segmentation reveals a strong emphasis on custom map solutions, reflecting a growing need for tailored cartographic representations catering to specific business requirements. Real-time map data is another key segment, capitalizing on the demand for dynamic and up-to-date location information. Geographic distribution shows North America and Europe as leading markets, with significant growth potential in the Asia-Pacific region, particularly in rapidly developing economies like China and India. Key players in the market, including Google, TomTom, Mapbox, and others, are actively investing in research and development, pushing technological boundaries and expanding their service portfolios to maintain a competitive edge. The ongoing evolution of map technologies, including improvements in data accuracy, integration with AI/ML, and expanding functionalities like 3D mapping and augmented reality overlays, will further shape the market landscape in the coming years.

Park Tiles Slate is a variation on the general-use basemap produced by the U.S. National Park Service with colors altered to support low-vision users and data overlays. NPS park unit extents and labels are emphasized over contextual features. The Park Tiles suite of basemaps is intended to extend to the web the strong NPS cartographic tradition developed at the Harpers Ferry Center, and incorporate NPS graphic identity standards. Data from multiple sources combine to produce a seamless map of NPS park units across all available zoom levels. NPS data is used to depict roads, trails, buildings, parking areas, and related features within park boundaries; data coverage may be incomplete for some parks at this time. OpenStreetMap (OSM) from Mapbox provides contextual data outside of park boundaries. Hydrographic features are sourced from the National Hydrography Dataset within park boundaries, and from OSM data outside park boundaries. The National Park Service boundaries shown do not all pull from the official NPS source, maintained by the Land Resources Division, and should not be considered authoritative. When using Park Tiles basemaps, please cite the National Park Service, © Mapbox, and © OpenStreetMap.

The HD Map Autonomous Vehicle Market is projected to expand at a 19.38% CAGR during the forecast period, reaching a value of $4.06 billion by 2033. The market growth is attributed to the increasing adoption of autonomous vehicles, which require high-definition maps for accurate navigation and path planning. Moreover, government regulations mandating the use of HD maps in autonomous vehicles are further driving the market growth. Key trends shaping the market include the integration of sensor fusion technology for real-time map updates, the adoption of cloud-based mapping for efficient data management, and the development of in-vehicle mapping for enhanced personalization. Major players in the market include Renovo, Mapbox, Waymo, Intel, Atlanter, Qualcomm, Ground Truth, Tesla, Aurora, Mobileye, ZF Friedrichshafen, NVIDIA, Bosch, TomTom, and HERE Technologies. The market is segmented by application (navigation, obstacle detection, traffic management, fleet management), end use (personal vehicles, commercial fleets, public transport), technology (sensor fusion, cloud-based mapping, in-vehicle mapping, real-time updating), and vehicle type (passenger cars, light commercial vehicles, heavy commercial vehicles, buses). Recent developments include: , Recent developments in the HD Map Autonomous Vehicle Market indicate significant advances and investments from key players. Waymo is enhancing its mapping technology to improve safety and efficiency, while Intel is focusing on integration with its mobility solutions. Mapbox recently launched new mapping tools aimed at optimizing the development of autonomous vehicle applications. Qualcomm's innovations in automotive chipsets have also accelerated mapping processes. Tesla continues to refine its self-driving technology, pushing the boundaries of HD mapping in real-time navigation., Merger and acquisition activities have seen companies like NVIDIA exploring partnerships to bolster data processing capabilities, while Bosch has been expected to expand its mapping business through collaborations. Current market dynamics reflect a growing interest in precision mapping, necessitating companies to invest in advanced technologies and partnerships. The market’s valuation has witnessed an upward trend as demand for more accurate and reliable mapping systems intensifies, with players such as Aurora and Mobileye positioning themselves for future growth. As a result, market players are increasingly collaborating, forming alliances, and acquiring relevant companies to strengthen their offerings in this rapidly evolving sector., HD Map Autonomous Vehicle Market Segmentation Insights. Key drivers for this market are: Increased demand for autonomous vehicles, Growth in smart city initiatives; Expansion of V2X communication technology; Rising investment in AI integration; Enhanced safety regulations and standards. Potential restraints include: Technological advancements in mapping, Increasing demand for automation; Rising investment in autonomous vehicles; Regulatory support for self-driving cars; Growing partnerships in mapping ecosystem.

Map Data Services market has a significant presence globally, with a market size valued at XXX million in 2025. It is projected to expand at a CAGR of XX% during the forecast period, reaching XXX million by 2033. The growth of the market is primarily driven by the increasing demand for accurate and reliable map data for various applications such as navigation, location-based services, and urban planning. Additionally, the rise of autonomous vehicles and the adoption of advanced technologies like augmented reality and virtual reality are further contributing to the demand for map data. The key players in the Map Data Services market include Google, WikiMapia, Apple Maps, Here, Bing Maps, Navinfo, TomTom, Mapbox, Esri, AutoNavi, Baidu Apollo, Sanborn, Yandex, Azure Maps, OpenStreetMap, and ArcGIS. These companies offer a wide range of map data products and services to meet the diverse needs of various industries and consumers. The market is segmented by application, type, and region, providing a comprehensive overview of the industry landscape and competitive dynamics. North America, Europe, and Asia Pacific are the major regional segments of the market, with North America holding a significant share due to the presence of major technology companies and the adoption of advanced technologies.

Park Tiles Standard SLSB is a variation on the general-use basemap produced by the U.S. National Park Service sans labels and sans boundaries. Park boundaries, labels, and NPS data within park boundaries have been removed. OpenStreetMap (OSM) from Mapbox provides contextual data such as roads and hydrographic features. In addition, Mapbox vector hillshading data is visible at smaller scales/lower zooms. When using Park Tiles basemaps, please cite the National Park Service, © Mapbox, and © OpenStreetMap.

Park Tiles Imagery is a variation on the general-use basemap produced by the U.S. National Park Service that incorporates Mapbox satellite imagery. NPS park unit extents and labels are emphasized over contextual features. The Park Tiles suite of basemaps is intended to extend to the web the strong NPS cartographic tradition developed at the Harpers Ferry Center, and incorporate NPS graphic identity standards. Data from multiple sources combine to produce a seamless map of NPS park units across all available zoom levels. NPS data is used to depict roads, trails, buildings, parking areas, and related features within park boundaries; data coverage may be incomplete for some parks at this time. OpenStreetMap (OSM) from Mapbox provides contextual data outside of park boundaries. The National Park Service boundaries shown do not all pull from the official NPS source, maintained by the Land Resources Division, and should not be considered authoritative. When using Park Tiles basemaps, please cite the National Park Service, © Mapbox, and © OpenStreetMap.

This file contains the digital vector boundaries for Middle layer Super Output Areas (LSOAs), in Birmingham for the 2021 Census geography.The boundaries available are: Generalised Clipped (BGC) - Generalised to 20m and clipped to the coastline (Mean High Water mark) and more generalised than the BFE boundaries.Middle layer Super Output AreasMiddle layer Super Output Areas (MSOAs) are made up of groups of Lower layer Super Output Areas (LSOAs), usually four or five. They comprise between 2,000 and 6,000 households and have a usually resident population between 5,000 and 15,000 persons. MSOAs fit within local authorities.Outputs from Census 2021 are for 2021 MSOAs and are made up of unchanged 2011 MSOAs and new 2021 MSOAs.Contains both Ordnance Survey and ONS Intellectual Property Rights.TopoJSON Shapefile for Power BIOn the Export tab you will find a file under the Alternative exports. This file is in TopoJSON format and is ready for use in compatible visualisation tools such as Power BI or Mapbox.

The digital map market is experiencing robust growth, projected to reach a market size of $9.05 billion in 2025 and expanding at a compound annual growth rate (CAGR) of 26.06%. This significant expansion is driven by several key factors. The increasing adoption of location-based services (LBS) across various sectors, including automotive, logistics, and e-commerce, fuels demand for accurate and comprehensive digital maps. Advancements in technologies like AI and machine learning are enhancing map accuracy, functionality, and personalization, further stimulating market growth. Furthermore, the rising penetration of smartphones and connected devices provides a readily available platform for digital map usage. The integration of digital maps into autonomous vehicle technology is another major driver, promising substantial future growth. Competition is fierce, with established players like Google, TomTom, and HERE Technologies vying for market share alongside emerging innovative companies offering specialized solutions. Market segmentation reveals a strong emphasis on navigation applications, reflecting the pervasive use of digital maps for route planning and guidance. Geocoding services, which convert addresses into geographical coordinates, also constitute a substantial market segment. While North America currently holds a significant market share due to early adoption and technological advancements, the Asia-Pacific region is expected to witness the fastest growth, propelled by rapid urbanization and increasing smartphone penetration in countries like India and China. However, challenges remain, including data privacy concerns, the need for continuous map updates to maintain accuracy, and the high cost of data acquisition and processing. Despite these restraints, the long-term outlook for the digital map market remains positive, with continued technological innovation and expanding applications promising sustained growth throughout the forecast period (2025-2033).

The Journey Planner) APIs offer data regarding routing, geocoding, map data and vehicle locations through several APIs.

• Routing API: Itinerary- and timetable-queries via either a GraphQL-API or a REST interface
• Geocoding API: Pelias REST interface
• Map API: HSL's background map as a TMS-service (Tile Map Service) and a number of public transport related points of interest (eg. ticket vending points, city bike stations & park and ride sites) as Mapbox vectortile services.
• Realtime API: GTFS-RT & MQTT feeds

The use of the Digitransit production APIs requires registration and use of API keys. More information and instructions for obtaining the API key.

Further information: digitransit.fi

The public transport network data is updated daily from HSL's public transport register to the journey planner APIs. The OpenStreetMap data is also updated daily to the journey planner for routing graph, geocoding and background map purposes. Due to different cache-settings, the changes in the background map become visible to the users in about one week's time.

Public transport network & timetables (GTFS)

Data from HSL's public transport register is derived into GTFS-format every day. This data collection includes all routes that have a valid timetable. The collection includes data three months onwards from the moment the collection was generated.

Traffic bulletins

Information about cancelled services is available the Journey Planner APIs mentioned above. For example, routing API's disruption-info & realtime API's service-alerts.

Die Daten der Bodenkarte werden als Vektortile-Kachelset (oft auch Vector Tile Cache genannt) in einem Format nach der Mapbox Style Spezifikation zur Verfugung gestellt. Dadurch konnen diese Daten auch in Applikationen, wie QGIS, OpenLayers oder Mapbox GL JS, eingebunden werden. Die Vektorkacheln der Bodenkarte sind im TileJSON Format beschrieben und unter https://bodenkarte.at/data/bodenkarte-tiles.json abrufbar. Die thematischen Layer der Bodenkarte sind im Mapbox GL Style Format beschrieben. Folgende Layer sind verfugbar. Properties: depth of sampling, depends on number, depth and thickness of genetic horizons and soil depth, generally 1 m

Climate For Development is a map-based micro-site that illustrates the links between climate change and development. The site is built on the open climate data available through the Climate Change Knowledge Portal. The data used on Climate For Development may be downloaded directly from the site or as map layers via the MapBox API.