Bolton & Menk, an engineering planning and consulting firm from the Midwestern United States has released a series of illustrated children’s books as a way of helping young people discover several different professions that typically do not get as much attention as other more traditional ones do.Topics of the award winning book series include landscape architecture, civil engineering, water resource engineering, urban planning and now Geographic Information Systems (GIS). The books are available free online in digital format, and easily accessed via a laptop, smart phone or tablet.The book Lindsey the GIS Specialist – A GIS Mapping Story Tyler Danielson, covers some the basics of what geographic information is and the type of work that a GIS Specialist does. It explains what the acronym GIS means, the different types of geospatial data, how we collect data, and what some of the maps a GIS Specialist creates would be used for.Click here to check out the GIS Specialist – A GIS Mapping Story e-book

Data Collection

Because titles vary widely across local governments our researchers call 22,000 counties, cities, and towns every 180 days to learn who is currently in the role and what their title is. It's common for officials to be responsible for multiple roles especially in smaller local governments. Because the data is phone verified MarketEdge's contact data achieves 97% accuracy.

Overview

The Head of GIS is the custodian of geospatial data that is critical for departments like Planning and Zoning, Economic Development, Building Permits and Inspections, Public Utilities, and Resource Management for the development and maintenance of public infrastructure.

Responsibilities

To qualify as the Head of GIS the person must perform one or more of the following primary responsibilities: - Manage and maintain geographic data like maps, zones, facility locations etc. - Manage GIS project plans and data collection schedules - Developing and implement standards for GIS deployment and creating and - maintaining structures necessary for GIS data storage - May also analyze and present geographical and spatial information

Reporting Structure and Occurrence A GIS function can exist within a government as an independent department OR may be an additional responsibility of another larger department like IT, Community Development, Building and Permits, Planning and Zoning and Public Works. In some local governments this function is outsourced to a private company or another government (county/state).

Titles You Might Expect - Town / Township Assessor - County Assessor - GIS Manager / Coordinator - GIS Specialist - GIS Analyst - GIS Technician - GIS Administrator - City Planner - Surprising Titles - Planning Director - Community Development Director - City Engineer - Chief Appraiser - County Engineer - Revenue Commissioner - Director of Engineering

Analysis of ‘Zoning GIS Data: Shapefile’ provided by Analyst-2 (analyst-2.ai), based on source dataset retrieved from https://catalog.data.gov/dataset/2b105ee3-f37b-4c5f-b02a-148f491c3b58 on 13 February 2022.

--- Dataset description provided by original source is as follows ---

GIS data: This data set consists of 6 classes of zoning features: zoning districts, special purpose districts, special purpose district subdistricts, limited height districts, commercial overlay districts, and zoning map amendments.

All previously released versions of this data are available at BYTES of the BIG APPLE- Archive

--- Original source retains full ownership of the source dataset ---

GIS in Telecom Sector Market Outlook

The global GIS in telecom sector market size was valued at approximately USD 1.7 billion in 2023 and is projected to reach USD 4.5 billion by 2032, growing at a CAGR of 11.5% during the forecast period. This substantial growth is driven by the increasing demand for advanced mapping and analysis tools in the telecom industry, which plays a crucial role in enhancing network performance, managing assets, and optimizing location-based services. The rapid technological advancements in geospatial data processing and the increasing integration of GIS with IoT, 5G, and AI technologies further contribute to the market’s expansion.

The growth factors for the GIS in telecom sector market are multifaceted and robust. The primary driver is the rising demand for enhanced customer experience and network efficiency, which GIS technology offers through precise mapping and real-time data analytics. Telecom operators are increasingly adopting GIS to optimize their network management processes, reduce operational costs, and improve service delivery. Additionally, the burgeoning demand for location-based services and the growing utilization of GIS in planning and deploying 5G networks are significant contributors to market growth. These applications are essential for telecom companies seeking to expand their networks and enhance connectivity, especially in rural and underserved areas.

The integration of GIS with emerging technologies such as IoT and AI is also a critical growth driver in this market. As telecom companies strive to offer more personalized and efficient services, the role of GIS in analyzing large volumes of geospatial data becomes vital. This integration facilitates better decision-making processes, enabling telecom operators to tailor their services according to specific geographic and demographic needs. Furthermore, GIS technology provides significant cost benefits by optimizing asset management and ensuring more efficient use of resources, which is increasingly appealing in a competitive market landscape.

Another growth factor is the increasing regulatory mandates and policies aimed at improving telecom infrastructure. Governments across the globe are investing heavily in modernizing telecom networks, and GIS plays a crucial role in these initiatives. By providing comprehensive spatial data and analytics, GIS technology assists in the strategic planning and deployment of telecom infrastructure, ensuring compliance with regulatory standards. Moreover, the rise in smart city projects, which rely heavily on advanced telecom networks, further propels the demand for GIS solutions in the telecom sector.

Regionally, North America dominates the GIS in telecom sector market due to its early adoption of advanced technologies and significant investments in telecom infrastructure. The presence of major telecom companies and technology providers also contributes to the region's leading position. However, the Asia Pacific region is expected to witness the highest growth rate during the forecast period, driven by the rapid expansion of telecom networks and the increasing focus on digital transformation initiatives. Emerging economies in this region are investing heavily in 5G deployment and smart city projects, which boost the demand for GIS solutions. Europe and Latin America also present significant opportunities for market growth, with ongoing investments in network modernization and digital infrastructure development.

Component Analysis

The GIS in telecom sector market is segmented into software, hardware, and services, each playing a pivotal role in the industry’s development. The software segment, which includes GIS mapping and analytics tools, is expected to hold the largest market share. This is attributed to the increasing demand for advanced software solutions that enable telecom operators to analyze geospatial data for network optimization and strategic planning. The continuous evolution of software capabilities, such as real-time analytics and cloud-based services, further propels the demand for GIS software in the telecom sector.

Hardware components, which include GPS devices, GNSS receivers, and other geospatial data collection tools, are crucial for data acquisition in GIS applications. Although this segment may not be as large as the software segment, its importance cannot be overstated. Advances in hardware technology have significantly improved data accuracy and processing speeds, enabling telecom companies to efficiently collect and analyze large volumes of geospatial data. The increasing integration of these hardwar

Uncover historical ownership history and changes over time by performing a reverse Whois lookup for the company GIS-SPECIALIST.

Analysis of ‘2019 CT Data Catalog (GIS)’ provided by Analyst-2 (analyst-2.ai), based on source dataset retrieved from https://catalog.data.gov/dataset/168eaac6-5f52-4015-be99-93031db2fd0d on 26 January 2022.

--- Dataset description provided by original source is as follows ---

Catalog of high value data inventories produced by Connecticut executive branch agencies and compiled by the Office of Policy and Management, updated in 2019. This catalog contains information on high value GIS data only. A catalog of high value non-GIS data may be found at the following link: https://data.ct.gov/Government/2019-CT-Data-Catalog-Non-GIS-/f6rf-n3ke

As required by Public Act 18-175, executive branch agencies must annually conduct a high value data inventory to capture information about the high value data that they collect.

High value data is defined as any data that the department head determines (A) is critical to the operation of an executive branch agency; (B) can increase executive branch agency accountability and responsiveness; (C) can improve public knowledge of the executive branch agency and its operations; (D) can further the core mission of the executive branch agency; (E) can create economic opportunity; (F) is frequently requested by the public; (G) responds to a need and demand as identified by the agency through public consultation; or (H) is used to satisfy any legislative or other reporting requirements.

This dataset was last updated 2/3/2020 and will continue to be updated as high value data inventories are submitted to OPM.

The 2018 high value data inventories for Non-GIS and GIS data can be found at the following links: CT Data Catalog (Non GIS): https://data.ct.gov/Government/CT-Data-Catalog-Non-GIS-/ghmx-93jn/ CT Data Catalog (GIS): https://data.ct.gov/Government/CT-Data-Catalog-GIS-/p7we-na27 Less

--- Original source retains full ownership of the source dataset ---

Our Certification & Restoration Program currently licenses water and wastewater treatment plant operators as well as water distribution plants throughout Florida. Obtaining one of these licenses is a prerequisite to obtaining employment as a plant operator, excluding owner-operators.See Metadata for contact information.

U.S. Populated Place Points represents populated places within the United States that include both census designated places and incorporated places identified by the U.S. Census.

PurposeThis job aid will lead the GIS analyst through the process of manually creating an incident map journal and how to create additional pages for the journal. This process should be used at the beginning of an incident and then the journal should be maintained to assure it remains viable. The incident map journal serves as a curated center to place maps, apps, and dashboards relevant to the incident.

This job aid assumes a working knowledge of how to create maps, apps, and dashboards on ArcGIS Online. For a tutorial, go to the Create apps from maps - ArcGIS Tutorial.Example workflow for the Geo-Enabled Plans Session at InSPIRE. Job Aid developed by FEMA GIS to enable GIS analysts to rapidly spin-up a standardized incident journal.

This feature class/shapefile represents electric power Independent System Operators. Independent System Operators were set up by the Federal Energy Regulatory Commission (FERC) to provide non-discriminatory access to power and to more adequately administer the transmission grid on a regional basis throughout North America. The following updates have been made since the previous release: updated attribution using best available sources.

Using the coronavirus infographic template in Business/Community Analyst Web (ArcGIS Blog).Business Analyst (BA) Web infographics are a powerful way to understand demographics and other information in context. This blog article explains how your organization can use the Coronavirus infographic template that was added to the infographics gallery on March 1, 2020._Communities around the world are taking strides in mitigating the threat that COVID-19 (coronavirus) poses. Geography and location analysis have a crucial role in better understanding this evolving pandemic.When you need help quickly, Esri can provide data, software, configurable applications, and technical support for your emergency GIS operations. Use GIS to rapidly access and visualize mission-critical information. Get the information you need quickly, in a way that’s easy to understand, to make better decisions during a crisis.Esri’s Disaster Response Program (DRP) assists with disasters worldwide as part of our corporate citizenship. We support response and relief efforts with GIS technology and expertise.More information...

This Story Map portrays the evolution of GIS at the City of Boise. Boise City GIS was initiated in 1989 when the Public Works Department hired a senior GIS analyst to create and maintain sewer data in a GIS. Over the years, in response to ever increasing demands for GIS services, Boise City GIS continued to grow and evolve. In 2006 GIS was reorganized, placing the GIS manager and GIS systems analysts under the Information & Technology Department to support the GIS infrastructure and develop a full-fledged enterprise GIS. At the same time, several GIS analysts and technicians were placed in other departments to support specific business functions

Analysis of ‘2018 CT Data Catalog (Non GIS)’ provided by Analyst-2 (analyst-2.ai), based on source dataset retrieved from https://catalog.data.gov/dataset/fe457197-5afe-4a20-a131-1bdcf9bd8ace on 26 January 2022.

--- Dataset description provided by original source is as follows ---

Catalog of high value data inventories produced by Connecticut executive branch agencies and compiled by the Office of Policy and Management. This catalog does not contain information about high value GIS data, which is compiled in a separate data inventory at the following link: https://data.ct.gov/Government/CT-Data-Catalog-GIS-/p7we-na27

As required by Public Act 18-175, executive branch agencies must annually conduct a high value data inventory to capture information about the high value data that they collect.

High value data is defined as any data that the department head determines (A) is critical to the operation of an executive branch agency; (B) can increase executive branch agency accountability and responsiveness; (C) can improve public knowledge of the executive branch agency and its operations; (D) can further the core mission of the executive branch agency; (E) can create economic opportunity; (F) is frequently requested by the public; (G) responds to a need and demand as identified by the agency through public consultation; or (H) is used to satisfy any legislative or other reporting requirements.

This dataset was last updated 3/4/2019 and will continue to be updated as high value data inventories are submitted to OPM.

--- Original source retains full ownership of the source dataset ---

The "GIS Boundary Information" dataset provides the SPEN licence area boundaries for our SP Distribution (SPD), SP Manweb (SPM) and SP Transmission (SPT) licence areas. Please note that the SPT licence area is essentially the same as the SPD licence area so is not included as a separate feature in the dataset.Licence Areas: SPD: Licenced Distribution Network Operator (DNO) for Central Belt and South of Scotland up to and including the 33kV network.SPM: Licenced Distribution Network Operator (DNO) for North Wales, Merseyside, Cheshire and North Shropshire up to and including the 132kV network.SPT: Licenced Transmission Network Owner (TNO) for the Central Belt and South of Scotland for network operating greater than or equal too 132kV.For additional information on column definitions, please click on the Dataset schema link below.Download dataset metadata (JSON)If you wish to provide feedback at a dataset or row level, please click on the “Feedback” tab above. Data Triage:As part of our commitment to enhancing the transparency, and accessibility of the data we share, we publish the results of our Data Triage process.Our Data Triage documentation includes our Risk Assessments; detailing any controls we have implemented to prevent exposure of sensitive information. Click here to access the Data Triage documentation for the GIS Boundary Information dataset.To access our full suite of Data Triage documentation, visit the SP Energy Networks Data & Information page.

DEP's Certification & Restoration Program currently licenses water and wastewater treatment plant operators and water distribution system operators throughout Florida. Obtaining one of these licenses is a prerequisite to obtaining employment as a plant operator.See Metadata for contact information.

Software Geographic Information Systems Market Outlook

As of 2023, the Software Geographic Information Systems (GIS) market size was valued at approximately USD 9.1 billion and is projected to reach around USD 18.6 billion by 2032, reflecting a robust Compound Annual Growth Rate (CAGR) of 8.5%. This remarkable growth is primarily driven by the increasing demand for spatial data across various industries, coupled with the advancement in geospatial technologies. The growing integration of GIS with mainstream business operations for better decision-making and the surge in urbanization and smart city initiatives are significant factors propelling the market forward. The continuous evolution in software capabilities, including enhanced data visualization and integration capabilities, further contributes to the rising adoption of GIS solutions worldwide.

One of the pivotal growth drivers of the Software GIS market is the expanding requirement for spatial data and analytics to enhance operational efficiency across multiple industry verticals. Industries such as urban planning, transportation, agriculture, and natural resources management are increasingly relying on GIS solutions for data-driven decision-making. The ability of GIS to provide real-time, location-based insights is revolutionizing how businesses plan, manage resources, and optimize their operations. Moreover, the rapid digitization and adoption of IoT (Internet of Things) technologies are also bolstering the demand for GIS software, as businesses seek to leverage interconnected devices for better data collection and analysis. The integration of GIS with IoT platforms allows for more comprehensive and precise spatial insights, thus driving market growth.

Another significant factor contributing to the growth of the Software GIS market is the advancement in cloud computing technologies. The shift from traditional on-premises deployment to cloud-based GIS solutions is gaining traction due to the numerous advantages offered by the cloud. Cloud-based GIS provides enhanced scalability, flexibility, and cost-effectiveness, making it an attractive option for businesses of all sizes. Additionally, cloud solutions facilitate easier collaboration and data sharing among different stakeholders, fostering a more integrated approach to spatial data management. The growing investment in cloud infrastructure by major players in the technology sector further supports the widespread adoption of cloud-based GIS solutions, enabling businesses to harness the power of spatial data in a more efficient and streamlined manner.

Furthermore, the increasing emphasis on environmental conservation and sustainable development is driving the demand for GIS applications in environmental monitoring and management. GIS software is extensively used for mapping and analyzing environmental data, helping organizations to monitor changes in land use, assess natural resource availability, and evaluate the impact of human activities on the environment. As governments and organizations worldwide strive to meet sustainability goals and address climate change challenges, GIS solutions are becoming indispensable tools for informed decision-making and strategic planning. The integration of GIS with emerging technologies such as AI and machine learning is also enhancing the capabilities of these systems, enabling more sophisticated analysis and predictive modeling.

The application of GIS in Transportation is becoming increasingly significant as the demand for efficient and sustainable transport systems grows. GIS technology enables transportation planners and operators to analyze spatial data in real-time, optimizing route planning and improving logistics operations. By integrating GIS with technologies like GPS and telematics, transportation systems can provide more accurate and timely information, enhancing decision-making processes. This integration is crucial for managing transportation networks effectively, reducing costs, and improving service delivery. As urban areas continue to expand and the need for smart transportation solutions rises, GIS in Transportation is expected to play a pivotal role in shaping the future of mobility.

Component Analysis

The Software segment of the GIS market is experiencing significant growth, driven by the continuous innovation and development of advanced GIS software solutions. Software providers are focusing on enhancing the functionality and usability of their products, incorporating features such as 3D visualization, real-time data process

The Rock Glacier Inventories and Kinematics community (RGIK) has defined standards for generating Rock Glacier Inventories (RoGI). In the framework of the European Space Agency Climate Change Initiative for Permafrost (ESA CCI Permafrost), we set up a multi-operator mapping exercise in 12 areas around the World. Each RoGI team was composed of five to ten operators, involving 41 persons in total. Each operator performed similar steps following the RGIK guidelines and using a similar QGIS tool. The individual results were compared and combined after common meetings to agree on the final consensus-based solutions. In total, 337 “certain” rock glaciers have been identified and characterised, and 222 additional landforms have been identified as “uncertain” rock glaciers.
The dataset consists of three GeoPackage files for each area: 1) the Primary Markers (PM) locating and characterising the identified Rock Glacier Units (RGU), 2) the Moving Areas (MA) delineating areas with surface movement associated with the rock glacier creep, based on spaceborne Interferometric Synthetic Aperture Radar (InSAR), and 3) the Geomorphological Outlines (GO) delineating the restricted and extended RGU boundaries. Here we describe the content, structure, and naming convention of the final PM/MA/GO dataset. The RoGI guidelines, the GeoPackage (gpkg) templates for performing similar RoGI in other areas, and exercises based on the QGIS tool are available on the RGIK website.

Funding: The initiative is funded by the European Space Agency Permafrost Climate Change Initiative (ESA CCI Permafrost, contract 4000123681/18/I-NB). The work of the Rock Glacier Inventories and Kinematics (RGIK) community has been supported by the International Permafrost Association (IPA), GCOS Switzerland, and SwissUniversities.

The Geographic Information System (GIS) in Telecom market is experiencing steady growth, projected to reach $1099.9 million in 2025, with a Compound Annual Growth Rate (CAGR) of 3.1% from 2025 to 2033. This growth is fueled by several key drivers. The increasing need for efficient network planning and optimization within the telecom sector is a major catalyst. GIS technology enables telecom companies to visualize network infrastructure, identify coverage gaps, and plan for network expansion strategically, optimizing resource allocation and reducing operational costs. Furthermore, the rising adoption of cloud-based GIS solutions offers scalability, flexibility, and cost-effectiveness, attracting a wider range of telecom operators, from SMEs to large enterprises. The integration of GIS with other technologies, such as IoT and big data analytics, further enhances its utility, enabling predictive maintenance, improved customer service, and more accurate network performance monitoring. Competitive pressures are also pushing telecom companies to leverage GIS for improved efficiency and better customer experiences. The market segmentation reveals a strong preference for cloud-based solutions, driven by their inherent advantages in scalability and accessibility. Large enterprises, with their complex network infrastructures and vast data sets, are major adopters of GIS technology. Geographically, North America and Europe currently hold significant market share due to early adoption and advanced technological infrastructure. However, the Asia-Pacific region is expected to witness rapid growth in the coming years, driven by increasing investments in telecom infrastructure and expanding mobile penetration. Challenges for the market include the high initial investment costs associated with implementing GIS systems and the need for skilled professionals to manage and utilize these complex systems. Despite these challenges, the long-term outlook for the GIS in Telecom market remains positive, driven by continuous technological advancements and the increasing reliance on data-driven decision-making within the telecom industry.

GIS In Telecom Market Outlook

The global GIS in Telecom market was valued at approximately $1.5 billion in 2023, and it is projected to reach around $3.2 billion by 2032, growing at a CAGR of 8.5% during the forecast period. This significant market size expansion is primarily driven by the increasing demand for efficient network management and the rising adoption of GIS technology in various telecom applications. Factors such as the proliferation of smart devices, increasing consumer expectations for high-quality network services, and the need for enhanced operational efficiency are further propelling the market growth. The integration of GIS technologies in telecommunications is proving to be a vital tool in managing the growing complexity of networks and infrastructure, thus boosting market expansion.

One of the primary growth factors of the GIS in Telecom market is the critical need for network optimization. As telecom operators strive to provide seamless connectivity and superior customer experiences, the demand for advanced network management tools has intensified. Geographic Information Systems (GIS) offer telecom companies the ability to visualize complex spatial data, enabling optimized network planning and efficient resource allocation. With the increasing roll-out of 5G networks, the need for precise network planning and deployment is more pressing than ever, making GIS an indispensable tool for telecom operators. Furthermore, the growing volume of data generated by IoT devices necessitates more robust network infrastructure, which GIS technologies can help efficiently design and manage.

Another significant growth driver is the increasing importance of location-based services (LBS) in the telecom industry. Consumers are increasingly relying on LBS for a wide range of applications, from navigation to local search, social networking, and more. Telecom companies, in collaboration with GIS technology, are leveraging LBS to provide personalized services to customers, thereby enhancing user engagement and satisfaction. Additionally, location-based insights are becoming crucial for targeted advertising and marketing strategies, offering telecom operators new revenue streams. The integration of GIS with LBS enables precise positioning and real-time data processing, facilitating the delivery of location-specific content and services.

The third growth factor is the rising emphasis on asset management and workforce optimization within telecom companies. Managing vast arrays of physical assets, such as cell towers, cables, and network equipment, is a complex task that GIS technology can significantly streamline. By providing accurate geospatial data and analytics, GIS tools help telecom operators maintain and manage their assets more efficiently, resulting in reduced operational costs and improved service quality. Similarly, GIS applications in workforce management optimize field operations by improving route planning, resource allocation, and task scheduling, ultimately enhancing productivity and customer service.

Geographically, the market exhibits varied dynamics across different regions. North America, being an early adopter of advanced technologies, holds a significant share of the market, driven by the presence of major telecom operators and the rapid deployment of 5G networks. The Asia Pacific region is expected to witness the highest growth rate, fueled by the massive telecom subscriber base and ongoing infrastructural developments in countries like China and India. Europe remains a lucrative market owing to the ongoing digital transformation initiatives and increasing investments in network modernization. Meanwhile, Latin America and the Middle East & Africa are gradually embracing GIS technologies, supported by growing internet penetration and telecom sector reforms.

Component Analysis

The GIS in Telecom market is segmented by component into software and services. The software segment encompasses a wide range of applications designed to facilitate various telecom operations, including network and asset management, location-based services, and workforce management. The demand for advanced GIS software solutions has seen a steady increase due to their ability to provide telecom operators with critical insights and decision-making capabilities. These software platforms offer features such as real-time data visualization, spatial analysis, and predictive modeling, which are invaluable for efficient network planning and management. As telecom companies continue to invest in digital transformation initiatives, the GIS software segment is expected to experience robust growth, driving overall market e

The global Geographic Information System (GIS) in Telecom market is experiencing robust growth, driven by the increasing demand for precise location-based services, network optimization, and improved infrastructure management within the telecommunications sector. The market's expansion is fueled by the proliferation of 5G networks, the Internet of Things (IoT), and the need for efficient network planning and deployment. Telecom companies are leveraging GIS technologies to optimize their network infrastructure, improve service quality, reduce operational costs, and enhance customer experience. This includes applications such as asset management, site selection, network planning, and emergency response. Furthermore, the integration of GIS with advanced analytics provides valuable insights into network performance, allowing for proactive maintenance and improved resource allocation. Competition is intense, with established players like Autodesk, Esri, and Hexagon competing with specialized telecom GIS providers. Growth is expected across all regions, with North America and Europe maintaining significant market shares due to advanced technological infrastructure and high adoption rates. However, emerging markets in Asia-Pacific and Latin America are showing promising growth potential as telecom infrastructure development accelerates. Challenges remain, including the high initial investment costs for implementing GIS solutions and the need for skilled professionals to manage and utilize these complex systems effectively. The projected Compound Annual Growth Rate (CAGR) suggests a sustained period of expansion for the GIS in Telecom market. Considering a base year of 2025 and a forecast period of 2025-2033, we can anticipate a significant increase in market size over the coming years. The continued advancements in GIS software, including cloud-based solutions and the integration of artificial intelligence (AI) and machine learning (ML), are further strengthening the market’s growth trajectory. This technological evolution enables more efficient data analysis, predictive modeling, and real-time decision-making for telecom operators, enhancing the overall value proposition of GIS solutions. The market's segmentation into various applications and service offerings also contributes to its diversification and continuous growth.