Digital Maps Market Size And Forecast

Digital Maps Market size was valued at USD 25.95 Billion in 2024 and is projected to reach USD 100.9 Billion by 2031, growing at a CAGR of 18.50% from 2024 to 2031.

Global Digital Maps Market Drivers

Increasing smartphone penetration: The growing number of smartphone users and the widespread availability of internet connectivity have made digital maps easily accessible.
Advancements in mapping technology: The development of more accurate and detailed digital maps, incorporating real-time traffic updates and navigation features, has increased their appeal to users.
Growth of the ride-sharing and delivery services industry: These industries rely heavily on accurate and up-to-date digital maps for navigation and route optimization.

Global Digital Maps Market Restraints

Data privacy concerns: The collection and use of location data raise privacy concerns, which can hinder the adoption of digital maps.
Map inaccuracies: Despite advancements in mapping technology, inaccuracies and errors can still occur, leading to user dissatisfaction.
Competition from free mapping services: The availability of free mapping services from tech giants like Google and Apple can limit the market for premium digital mapping solutions.

The Global Digital Map Market is segmented by Solution (Software, Services), Deployment (On-Premise, Cloud), Industry (Automotive, Engineering & Construction, Logistics & Transportation, Energy & Utilities, Telecommunication), and Geography (North America, Europe, Asia-Pacific, Rest of the world). The market sizes and forecasts are provided in terms of value (USD million) for all the above segments.

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GIS In Telecom Sector Market Size 2024-2028

The GIS in telecom sector market size is forecast to increase by USD 1.91 billion at a CAGR of 14.68% between 2023 and 2028.

Geographic Information Systems (GIS) have gained significant traction In the telecom sector due to the increasing adoption of advanced technologies such as big data, sensors, drones, and LiDAR. The use of GIS enables telecom companies to effectively manage and analyze large volumes of digital data, including satellite and GPS information, to optimize infrastructure monitoring and antenna placement. In the context of smart cities, GIS plays a crucial role in enabling efficient communication between developers and end-users by providing real-time data on construction progress and infrastructure status. Moreover, the integration of LiDAR technology with drones offers enhanced capabilities for surveying and mapping telecom infrastructure, leading to improved accuracy and efficiency.
However, the implementation of GIS In the telecom sector also presents challenges, including data security concerns and the need for servers and computers to handle the large volumes of data generated by these technologies. In summary, the telecom sector's growing reliance on digital technologies such as GIS, big data, sensors, drones, and LiDAR is driving market growth, while the need for effective data management and security solutions presents challenges that must be addressed.

What will be the Size of the GIS In Telecom Sector Market During the Forecast Period?

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The Geographic Information System (GIS) market In the telecom sector is experiencing significant growth due to the increasing demand for electronic information and visual representation of data in various industries. This market encompasses a range of hardware and software solutions, including GNSS/GPS antennas, Lidar, GIS collectors, total stations, imaging sensors, and more. Major industries such as agriculture, oil & gas, architecture, and infrastructure monitoring are leveraging GIS technology for data analysis and decision-making. The adoption rate of GIS In the telecom sector is driven by the need for efficient data management and analysis, as well as the integration of real-time data from various sources.
Data formats and sources vary widely, from satellite and aerial imagery to ground-based sensors and IoT devices. The market is also witnessing innovation from startups and established players, leading to advancements in data processing capabilities and integration with other technologies like 5G networks and AI. Applications of GIS In the telecom sector include smart urban planning, smart utilities, and smart public works, among others.

How is this GIS In Telecom Sector Industry segmented and which is the largest segment?

The GIS in telecom sector industry research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD billion' for the period 2024-2028, as well as historical data from 2018-2022 for the following segments.

Product

  Software
  Data
  Services


Deployment

  On-premises
  Cloud


Geography

  APAC

    China


  North America

    Canada
    US


  Europe

    UK
    Italy


  South America



  Middle East and Africa

By Product Insights

The software segment is estimated to witness significant growth during the forecast period. The telecom sector's Global GIS market encompasses software solutions for desktops, mobiles, cloud, and servers, along with developers' platforms. companies provide industry-specific GIS software, expanding the growth potential of this segment. Telecom companies heavily utilize intelligent maps generated by GIS for informed decisions on capacity planning and enhancements, such as improved service and next-generation networks. This drives significant growth In the software segment. Commercial entities offer open-source GIS software to counteract the threat of counterfeit products.
GIS technologies are integral to telecom network management, spatial data analysis, infrastructure planning, location-based services, network coverage mapping, data visualization, asset management, real-time network monitoring, design, wireless network mapping, integration, maintenance, optimization, and geospatial intelligence. Key applications include 5G network planning, network visualization, outage management, geolocation, mobile network optimization, and smart infrastructure planning. The GIS industry caters to major industries, including agriculture, oil & gas, architecture, engineering, construction, mining, utilities, retail, healthcare, government, and smart city planning. GIS solutions facilitate real-time data management, spatial information, and non-spatial information, offering enterprise solutions and transportation applications.

Get a glance at the market report of share of variou

WMS service that generates the cartography of the Energy and Telecommunications Map that covers the territory of Barcelona's city council

The ILR draws up coverage maps of fibre optic FO networks meeting the quality criteria of a Very High Capacity Network, i.e. a fixed network allowing a downstream speed of at least 1Gbps. Network coverage maps in Luxembourg are produced in accordance with Article 26 of the law of 17 December 2021 on electronic communications networks and services. For more information, please see here [link to ILR website RGDR section].

The ILR produces coverage maps of mobile networks for the different technologies from 2G to 5G. For the 5G technology of the mobile operator Proximus Luxembourg S.A., the different coverage maps for the qualities of service "satisfactory", "very good" and "excellent" per 100mx100m grid are documented. Network coverage maps in Luxembourg are produced in accordance with Article 26 of the law of 17 December 2021 on electronic communications networks and services. For more information, please see here [link to ILR website RGDR section].

Category PT3 easements concern easements on private property established for the benefit of operators of telecommunications networks (electronic communication) open to the public in order to allow the installation and operation of network equipment, including fixed and mobile very high-speed network equipment: - on and in parts of multi-family buildings and subdivisions for common use, including those capable of accommodating radio installations or equipment; - on the ground and in the basement of unbuilt properties, including those capable of accommodating radio installations or equipment; - above private property in so far as the operator merely uses the installation of a third party benefiting from easements without compromising, where appropriate, the specific public service mission entrusted to that third party.

The installation of the structures of the telecommunications network (electronic communication) may not prevent the right of the owners or co-owners to demolish, repair, modify or close their property. However, the owners or co-owners must, at least three months before undertaking work likely to affect the works, notify the beneficiary of the easement. Agents of authorized operators must be provided with a certificate signed by the beneficiary of the easement and the company to which the agent belongs to access the immovable, subdivision or unbuilt property. When, for the study, the realization and the operation of the installations, the introduction of these agents in the private properties is necessary, it is, in the absence of an amicable agreement, authorized by the president of the tribunal de grande instance, ruling as in matters of interim relief, which ensures that the presence of the agents is necessary. The beneficiary of the easement is responsible for all damages that originate in the equipment of the network. It is required to compensate all direct and certain damage caused both by the installation and maintenance work and by the existence or operation of the works. In the absence of an amicable agreement, the compensation is fixed by the court of expropriation seized by the most diligent party.

This resource describes the linear bases of PT1 easements combined with their generators, i.e. the buried structures of the telecommunications network.

The Custom Digital Map Service market has emerged as a crucial element in a wide array of industries, providing tailored mapping solutions that enhance operations, improve decision-making, and optimize customer experiences. As businesses increasingly shift towards digital environments, the demand for customized, acc

Easement attached to telecommunications networks established pursuant to Articles L. 45-1 and L. 48 of the Postal and Electronic Communications Code.The basis of an easement is the spatial field (i.e., the geographical area) within which the easement applies. This space field can be defined either in 2D or in 3D in particular in the specific cases of airport clearance easements, easements to protect radio transmission centres.

Cellular Towers in the United StatesThis Homeland Infrastructure Foundation-Level Data (HIFLD) feature layer depicts cellular towers in the United States. According to the Federal Communications Commission (FCC), "Primary antennas for transmitting wireless telephone service, including cellular and Personal Communications Service (PCS), are usually located outdoors on towers, water tanks and other elevated structures like rooftops and sides of buildings. The combination of antenna towers andassociated electronic equipment is referred to as a 'cellular or PCS cell site' or 'base station.' Cellular or PCS cell site towers are typically 50-200 feet high."United States Cellular Operating Company LLCData currency: Current federal service (Cellular Towers New)Data modification: NoneFor more information: Tower and Antenna Siting; Cellular TowersFor feedback, please contact: ArcGIScomNationalMaps@esri.comHomeland Infrastructure Foundation-Level DataPer HIFLD, "The Homeland Infrastructure Foundation-Level Data (HIFLD) Subcommittee was established…to address improvements in collection, processing, sharing, and protection of homeland infrastructure geospatial information across multiple levels of government, and to develop a common foundation of homeland infrastructure data to be used for visualization and analysis on all classification domains."

The ILR draws up coverage maps of cable networks DOCSIS (CATV) meeting the quality criteria of a Very High Capacity Network, i.e. a fixed network allowing a downstream speed of at least 1Gbps. Network coverage maps in Luxembourg are produced in accordance with Article 26 of the law of 17 December 2021 on electronic communications networks and services. For more information, please see here [link to ILR website RGDR section].

The Digital Map Service market has rapidly evolved over the past few years, becoming an integral part of various industries such as transportation, real estate, tourism, and logistics. As organizations increasingly rely on geospatial data to enhance operational efficiency and improve decision-making, the demand for

Class PT3 easements concern easements on private property established for the benefit of operators of telecommunications networks (electronic communication) open to the public in order to allow the installation and operation of network equipment, including fixed and mobile very high-speed network equipment: — on and in parts of collective buildings and subdivisions for common use, including those capable of accommodating radio installations or equipment; — on the ground and in the basement of unbuilt properties, including those capable of accommodating radio installations or equipment; — above private property in so far as the operator merely uses the installation of a third party benefiting from easements without compromising, where appropriate, the own public service task entrusted to that third party. The installation of the structures of the telecommunications network (electronic communication) shall not interfere with the right of owners or co-owners to demolish, repair, modify or close their property. However, owners or co-owners must, at least three months before undertaking work likely to affect the works, notify the beneficiary of the easement. Authorised operators’ agents must have a certificate signed by the beneficiary of the easement and the undertaking to which that agent belongs in order to access the building, subdivision or unbuilt property. Where, for the purposes of the study, construction and operation of the facilities, the introduction of such agents into private property is necessary, it shall, in the absence of an amicable agreement, be authorised by the President of the Tribunal de grande instance, ruling as regards interim measures, which shall ensure that the presence of the staff is necessary. The beneficiary of the servitude shall be liable for any damage which arises from the equipment of the network. He shall be required to compensate all direct and certain damage caused both by installation and maintenance work and by the existence or operation of the works. In the absence of an amicable agreement, compensation shall be fixed by the expropriation court seized by the most diligent party. This resource describes the generators of the PT3 easements, namely the buried structures of the telecommunications network.

The ILR draws up coverage maps based on the quality criteria of a very high capacity network, known as a "VHCN" network, i.e. a fixed network allowing a download speed of at least 1Gbps. The FO fibre network and the DOCSIS cable network (CATV) can provide such speeds. Network coverage maps in Luxembourg are produced in accordance with Article 26 of the law of 17 December 2021 on electronic communications networks and services. For more information, please see here [link to ILR website RGDR section].

The ILR produces mobile network coverage maps for the different technologies from 2G to 5G. For the 5G technology the maximum speed per 100mx100m grid is documented as well as the mobile operators offering this maximum speed. The colours in the legend (see below) provide information about the maximum coverage/speed for the selected mobile operators with network per grid. Network coverage maps in Luxembourg are produced in accordance with Article 26 of the law of 17 December 2021 on electronic communications networks and services. For more information, please see here [link to ILR website RGDR section].

The ILR produces coverage maps of mobile networks for the different technologies from 2G to 5G. For the 5G technology of the mobile operator Post Luxembourg, the different coverage maps for the qualities of service "satisfactory", "very good" and "excellent" per 100mx100m grid are documented. Network coverage maps in Luxembourg are produced in accordance with Article 26 of the law of 17 December 2021 on electronic communications networks and services. For more information, please see here [link to ILR website RGDR section].

The ILR produces coverage maps of mobile networks for the different technologies from 2G to 5G. For the 3G technology of the mobile operator Post Luxembourg, the coverage map for the qualities of service "satisfactory" for data, voice and SMS vservices per 100mx100m grid is documented. Network coverage maps in Luxembourg are produced in accordance with Article 26 of the law of 17 December 2021 on electronic communications networks and services. For more information, please see here [link to ILR website RGDR section].

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What is the GIS In Utility Industry Market Size?

The GIS market in the utility industry size is forecast to increase by USD 3.55 billion at a CAGR of 19.8% between 2023 and 2028. Market expansion hinges on various factors, such as the rising adoption of Geographic Information System (GIS) solutions in the utility sector, the convergence of GIS with Building Information Modeling, and the fusion of Augmented Reality with GIS technology. These elements collectively drive market growth, reflecting advancements in spatial data analytics and technological convergence. The increased adoption of GIS solutions in the utility industry underscores the importance of geospatial data in optimizing infrastructure management. Simultaneously, the integration of GIS with BIM signifies the synergy between spatial and building information for enhanced project planning and management. Additionally, the integration of AR with GIS technology highlights the potential for interactive and interactive visualization experiences in spatial data analysis. Thus, the interplay of these factors delineates the landscape for the anticipated expansion of the market catering to GIS and related technologies.

What will be the size of Market during the forecast period?

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Market Segmentation

The market research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD billion' for the period 2025-2029, as well as historical data from 2019 - 2023 for the following segments.

Product

  Software
  Data
  Services


Deployment

  On-premises
  Cloud


Geography

  North America

    Canada
    US


  Europe

    Germany
    France


  APAC

    China
    India
    Japan


  Middle East and Africa



  South America

    Brazil

Which is the largest segment driving market growth?

The software segment is estimated to witness significant growth during the forecast period. In the utility industry, the spatial context of geographic information systems (GIS) plays a pivotal role in site selection, land acquisition, planning, designing, visualizing, building, and project management. Utilities, including electricity, gas, water, and telecommunications providers, leverage GIS software to efficiently manage their assets and infrastructure. This technology enables the collection, management, analysis, and visualization of geospatial data, derived from satellite imaging, aerial photography, remote sensors, and artificial intelligence. Geospatial AI, sensor technology, and digital reality solutions are integral components of GIS, enhancing capabilities for smart city planning, urban planning, water management, mapping systems, grid modernization, transportation, and green buildings.

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The software segment was valued at USD 541.50 million in 2018. Moreover, the geospatial industry continues to evolve, with startups and software solutions driving innovation in hardware, smart city planning, land use management, smart infrastructure planning, and smart utilities. GIS solutions facilitate 4D visualization, enabling stakeholders to overcome geospatial data barriers and make informed decisions. The utility industry's reliance on GIS extends to building information modeling, augmented reality, and smart urban planning, ultimately contributing to the growth of the geospatial technology market.

Which region is leading the market?

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North America is estimated to contribute 37% to the growth of the global market during the forecast period. Technavio's analysts have elaborately explained the regional trends and drivers that shape the market during the forecast period.

How do company ranking index and market positioning come to your aid?

Companies are implementing various strategies, such as strategic alliances, partnerships, mergers and acquisitions, geographical expansion, and product/service launches, to enhance their presence in the market.

AABSyS IT Pvt. Ltd. - The company offers GIS solutions such as remote sensing and computer aided design and drafting solutions for electric and gas utility.

Technavio provides the ranking index for the top 20 companies along with insights on the market positioning of:

AABSyS IT Pvt. Ltd.
Autodesk Inc.
Avineon Inc.
Bentley Systems Inc.
Blue Marble Geographics
Cadcorp Ltd.
Caliper Corp.
Environmental Systems Research Institute Inc.
General Electric Co.
Hexagon AB
Mapbox Inc.
Maxar Technologies Inc.
Mobile GIS Services Ltd.
NV5 Global Inc.
Orbital Insight Inc.
Pitney Bowes Inc.
Schneider Electric SE
SuperMap Software Co. Ltd.
Trimble Inc.
VertiGIS Ltd.

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How can Technavio assist you in ma

The ILR produces coverage maps of mobile networks for the different technologies from 2G to 5G. For the 5G technology of the mobile operator Orange Luxembourg S.A., the different coverage maps for the qualities of service "satisfactory", "very good" and "excellent" per 100mx100m grid are documented. Network coverage maps in Luxembourg are produced in accordance with Article 26 of the law of 17 December 2021 on electronic communications networks and services. For more information, please see here [link to ILR website RGDR section].

The ILR produces coverage maps of mobile networks for the different technologies from 2G to 5G. For the 2G technology of the mobile operator Orange Luxembourg S.A., the coverage map for the qualities of service "satisfactory" for voice and SMS vservices per 100mx100m grid is documented. Network coverage maps in Luxembourg are produced in accordance with Article 26 of the law of 17 December 2021 on electronic communications networks and services. For more information, please see here [link to ILR website RGDR section].