This dataset contains data for the Healthcare Payments Data (HPD) Services report. The term "Services" refers to individual procedures reported on the service lines of healthcare claims in California, categorized using the Restructured Berenson-Eggers Type of Services (BETOS) Classification System (RBCS) from the Centers for Medicare & Medicaid Services (CMS). The data in the report includes three main metrics: Total services, the total member count, and the service rate per 1,000 members. Total services represents the total number of services received by members during the reporting year. The member count reports the total number of unique individuals who received at least one service during the reporting year. The service rate per 1,000 members is calculated by dividing the total number of services during the reporting year by the total sum of monthly member enrollments (provided in the data) and multiplying the result by 12,000. The metrics can be grouped by year, age, sex (assigned at birth), county of residence (including an option for Los Angeles Service Planning Areas, or SPAs), Covered California Region, and payer.

Users can choose to view the data at two different levels. The most aggregate level groups the data by the eight main RBCS categories: Anesthesia, Durable Medical Equipment (DME), Evaluation and Management (E&M), Imaging, Procedure, Test, Treatment and Other. The second level breaks the eight aggregate RBCS categories into more specific subcategories. Data files are provided for each choice.

Terms of UseData Limitations and DisclaimerThe user’s use of and/or reliance on the information contained in the Document shall be at the user’s own risk and expense. MassDEP disclaims any responsibility for any loss or harm that may result to the user of this data or to any other person due to the user’s use of the Document.This is an ongoing data development project. Attempts have been made to contact all PWS systems, but not all have responded with information on their service area. MassDEP will continue to collect and verify this information. Some PWS service areas included in this datalayer have not been verified by the PWS or the municipality involved, but since many of those areas are based on information published online by the municipality, the PWS, or in a publicly available report, they are included in the estimated PWS service area datalayer.Please note: All PWS service area delineations are estimates for broad planning purposes and should only be used as a guide. The data is not appropriate for site-specific or parcel-specific analysis. Not all properties within a PWS service area are necessarily served by the system, and some properties outside the mapped service areas could be served by the PWS – please contact the relevant PWS. Not all service areas have been confirmed by the systems.Please use the following citation to reference these data:MassDEP, Water Utility Resilience Program. 2025. Community and Non-Transient Non-Community Public Water System Service Area (PubV2025_3).IMPORTANT NOTICE: This MassDEP Estimated Water Service datalayer may not be complete, may contain errors, omissions, and other inaccuracies and the data are subject to change. This version is published through MassGIS. We want to learn about the data uses. If you use this dataset, please notify staff in the Water Utility Resilience Program (WURP@mass.gov).This GIS datalayer represents approximate service areas for Public Water Systems (PWS) in Massachusetts. In 2017, as part of its “Enhancing Resilience and Emergency Preparedness of Water Utilities through Improved Mapping” (Critical Infrastructure Mapping Project ), the MassDEP Water Utility Resilience Program (WURP) began to uniformly map drinking water service areas throughout Massachusetts using information collected from various sources. Along with confirming existing public water system (PWS) service area information, the project collected and verified estimated service area delineations for PWSs not previously delineated and will continue to update the information contained in the datalayers. As of the date of publication, WURP has delineated Community (COM) and Non-Transient Non-Community (NTNC) service areas. Transient non-community (TNCs) are not part of this mapping project.Layers and Tables:The MassDEP Estimated Public Water System Service Area data comprises two polygon feature classes and a supporting table. Some data fields are populated from the MassDEP Drinking Water Program’s Water Quality Testing System (WQTS) and Annual Statistical Reports (ASR).The Community Water Service Areas feature class (PWS_WATER_SERVICE_AREA_COMM_POLY) includes polygon features that represent the approximate service areas for PWS classified as Community systems.The NTNC Water Service Areas feature class (PWS_WATER_SERVICE_AREA_NTNC_POLY) includes polygon features that represent the approximate service areas for PWS classified as Non-Transient Non-Community systems.The Unlocated Sites List table (PWS_WATER_SERVICE_AREA_USL) contains a list of known, unmapped active Community and NTNC PWS services areas at the time of publication.ProductionData UniversePublic Water Systems in Massachusetts are permitted and regulated through the MassDEP Drinking Water Program. The WURP has mapped service areas for all active and inactive municipal and non-municipal Community PWSs in MassDEP’s Water Quality Testing Database (WQTS). Community PWS refers to a public water system that serves at least 15 service connections used by year-round residents or regularly serves at least 25 year-round residents.All active and inactive NTNC PWS were also mapped using information contained in WQTS. An NTNC or Non-transient Non-community Water System refers to a public water system that is not a community water system and that has at least 15 service connections or regularly serves at least 25 of the same persons or more approximately four or more hours per day, four or more days per week, more than six months or 180 days per year, such as a workplace providing water to its employees.These data may include declassified PWSs. Staff will work to rectify the status/water services to properties previously served by declassified PWSs and remove or incorporate these service areas as needed.Maps of service areas for these systems were collected from various online and MassDEP sources to create service areas digitally in GIS. Every PWS is assigned a unique PWSID by MassDEP that incorporates the municipal ID of the municipality it serves (or the largest municipality it serves if it serves multiple municipalities). Some municipalities contain more than one PWS, but each PWS has a unique PWSID. The Estimated PWS Service Area datalayer, therefore, contains polygons with a unique PWSID for each PWS service area.A service area for a community PWS may serve all of one municipality (e.g. Watertown Water Department), multiple municipalities (e.g. Abington-Rockland Joint Water Works), all or portions of two or more municipalities (e.g. Provincetown Water Dept which serves all of Provincetown and a portion of Truro), or a portion of a municipality (e.g. Hyannis Water System, which is one of four PWSs in the town of Barnstable).Some service areas have not been mapped but their general location is represented by a small circle which serves as a placeholder. The location of these circles are estimates based on the general location of the source wells or the general estimated location of the service area - these do not represent the actual service area.Service areas were mapped initially from 2017 to 2022 and reflect varying years for which service is implemented for that service area boundary. WURP maintains the dataset quarterly with annual data updates; however, the dataset may not include all current active PWSs. A list of unmapped PWS systems is included in the USL table PWS_WATER_SERVICE_AREA_USL available for download with the dataset. Some PWSs that are not mapped may have come online after this iteration of the mapping project; these will be reconciled and mapped during the next phase of the WURP project. PWS IDs that represent regional or joint boards with (e.g. Tri Town Water Board, Randolph/Holbrook Water Board, Upper Cape Regional Water Cooperative) will not be mapped because their individual municipal service areas are included in this datalayer.PWSs that do not have corresponding sources, may be part of consecutive systems, may have been incorporated into another PWSs, reclassified as a different type of PWS, or otherwise taken offline. PWSs that have been incorporated, reclassified, or taken offline will be reconciled during the next data update.Methodologies and Data SourcesSeveral methodologies were used to create service area boundaries using various sources, including data received from the systems in response to requests for information from the MassDEP WURP project, information on file at MassDEP, and service area maps found online at municipal and PWS websites. When provided with water line data rather than generalized areas, 300-foot buffers were created around the water lines to denote service areas and then edited to incorporate generalizations. Some municipalities submitted parcel data or address information to be used in delineating service areas.Verification ProcessSmall-scale PDF file maps with roads and other infrastructure were sent to every PWS for corrections or verifications. For small systems, such as a condominium complex or residential school, the relevant parcels were often used as the basis for the delineated service area. In towns where 97% or more of their population is served by the PWS and no other service area delineation was available, the town boundary was used as the service area boundary. Some towns responded to the request for information or verification of service areas by stating that the town boundary should be used since all or nearly all of the municipality is served by the PWS.Sources of information for estimated drinking water service areasThe following information was used to develop estimated drinking water service areas:EOEEA Water Assets Project (2005) water lines (these were buffered to create service areas)Horsely Witten Report 2008Municipal Master Plans, Open Space Plans, Facilities Plans, Water Supply System Webpages, reports and online interactive mapsGIS data received from PWSDetailed infrastructure mapping completed through the MassDEP WURP Critical Infrastructure InitiativeIn the absence of other service area information, for municipalities served by a town-wide water system serving at least 97% of the population, the municipality’s boundary was used. Determinations of which municipalities are 97% or more served by the PWS were made based on the Percent Water Service Map created in 2018 by MassDEP based on various sources of information including but not limited to:The Winter population served submitted by the PWS in the ASR submittalThe number of services from WQTS as a percent of developed parcelsTaken directly from a Master Plan, Water Department Website, Open Space Plan, etc. found onlineCalculated using information from the town on the population servedMassDEP staff estimateHorsely Witten Report 2008Calculation based on Water System Areas Mapped through MassDEP WURP Critical Infrastructure Initiative, 2017-2022Information found in publicly available PWS planning documents submitted to MassDEP or as part of infrastructure planningMaintenanceThe

Neighborhood service areas are regions in the city that were used in the past in the reports on the level of city services.

Note: After May 3, 2024, this dataset will no longer be updated because hospitals are no longer required to report data on COVID-19 hospital admissions, hospital capacity, or occupancy data to HHS through CDC’s National Healthcare Safety Network (NHSN). The related CDC COVID Data Tracker site was revised or retired on May 10, 2023.

Note: May 3,2024: Due to incomplete or missing hospital data received for the April 21,2024 through April 27, 2024 reporting period, the COVID-19 Hospital Admissions Level could not be calculated for CNMI and will be reported as “NA” or “Not Available” in the COVID-19 Hospital Admissions Level data released on May 3, 2024.

This dataset represents COVID-19 hospitalization data and metrics aggregated to county or county-equivalent, for all counties or county-equivalents (including territories) in the United States as of the initial date of reporting for each weekly metric. COVID-19 hospitalization data are reported to CDC’s National Healthcare Safety Network, which monitors national and local trends in healthcare system stress, capacity, and community disease levels for approximately 6,000 hospitals in the United States. Data reported by hospitals to NHSN and included in this dataset represent aggregated counts and include metrics capturing information specific to COVID-19 hospital admissions, and inpatient and ICU bed capacity occupancy.

Reporting information:

• As of December 15, 2022, COVID-19 hospital data are required to be reported to NHSN, which monitors national and local trends in healthcare system stress, capacity, and community disease levels for approximately 6,000 hospitals in the United States. Data reported by hospitals to NHSN represent aggregated counts and include metrics capturing information specific to hospital capacity, occupancy, hospitalizations, and admissions. Prior to December 15, 2022, hospitals reported data directly to the U.S. Department of Health and Human Services (HHS) or via a state submission for collection in the HHS Unified Hospital Data Surveillance System (UHDSS).
• While CDC reviews these data for errors and corrects those found, some reporting errors might still exist within the data. To minimize errors and inconsistencies in data reported, CDC removes outliers before calculating the metrics. CDC and partners work with reporters to correct these errors and update the data in subsequent weeks.
• Many hospital subtypes, including acute care and critical access hospitals, as well as Veterans Administration, Defense Health Agency, and Indian Health Service hospitals, are included in the metric calculations provided in this report. Psychiatric, rehabilitation, and religious non-medical hospital types are excluded from calculations.
• Data are aggregated and displayed for hospitals with the same Centers for Medicare and Medicaid Services (CMS) Certification Number (CCN), which are assigned by CMS to counties based on the CMS Provider of Services files.
• Full details on COVID-19 hospital data reporting guidance can be found here: https://www.hhs.gov/sites/default/files/covid-19-faqs-hospitals-hospital-laboratory-acute-care-facility-data-reporting.pdf

• County-level hospital data are derived using calculations performed at the Health Service Area (HSA) level. An HSA is defined by CDC’s National Center for Health Statistics as a geographic area containing at least one county which is self-contained with respect to the population’s provision of routine hospital care. Every county in the United States is assigned to an HSA, and each HSA must contain at least one hospital. Therefore, use of HSAs in the calculation of local hospital metrics allows for more accurate characterization of the relationship between health care utilization and health status at the local level.
• Data presented at the county-level represent admissions, hospital inpatient and ICU bed capacity and occupancy among hospitals within the selected HSA. Therefore, admissions, capacity, and occupancy are not limited to residents of the selected HSA.
• For all county-level hospital metrics listed below the values are calculated first for the entire HSA, and then the HSA-level value is then applied to each county within the HSA.
• For all county-level hospital metrics listed below the values are calculated first for the entire HSA, and then the HSA-level value is then applied to each county within the HSA.

• Time period: data for the previous MMWR week (Sunday-Saturday) will update weekly on Mondays as soon as they are reviewed and verified, usually before 8 pm ET. Updates will occur the following day when reporting coincides with a federal holiday. Note: Weekly updates might be delayed due to delays in reporting. All data are provisional. Because these provisional counts are subject to change, including updates to data reported previously, adjustments can occur. Data may be updated since original publication due to delays in reporting (to account for data received after a given Thursday publication) or data quality corrections.
• New hospital admissions (count): Total number of admissions of patients with laboratory-confirmed COVID-19 in the previous week (including both adult and pediatric admissions) in the entire jurisdiction
• New Hospital Admissions Rate Value (Admissions per 100k): Total number of new admissions of patients with laboratory-confirmed COVID-19 in the past week (including both adult and pediatric admissions) for the entire jurisdiction divided by 2019 intercensal population estimate for that jurisdiction multiplied by 100,000. (Note: This metric is used to determine each county’s COVID-19 Hospital Admissions Level for a given week).
• New COVID-19 Hospital Admissions Rate Level: qualitative value of new COVID-19 hospital admissions rate level [Low, Medium, High, Insufficient Data]
• New hospital admissions percent change from prior week: Percent change in the current weekly total new admissions of patients with laboratory-confirmed COVID-19 per 100,000 population compared with the prior week.
• New hospital admissions percent change from prior week level: Qualitative value of percent change in hospital admissions rate from prior week [Substantial decrease, Moderate decrease, Stable, Moderate increase, Substantial increase, Insufficient data]
• COVID-19 Inpatient Bed Occupancy Value: Percentage of all staffed inpatient beds occupied by patients with laboratory-confirmed COVID-19 (including both adult and pediatric patients) within the in the entire jurisdiction is calculated as an average of valid daily values within the past week (e.g., if only three valid values, the average of those three is taken). Averages are separately calculated for the daily numerators (patients hospitalized with confirmed COVID-19) and denominators (staffed inpatient beds). The average percentage can then be taken as the ratio of these two values for the entire jurisdiction.
• COVID-19 Inpatient Bed Occupancy Level: Qualitative value of inpatient beds occupied by COVID-19 patients level [Minimal, Low, Moderate, Substantial, High, Insufficient data]
• COVID-19 Inpatient Bed Occupancy percent change from prior week: The absolute change in the percent of staffed inpatient beds occupied by patients with laboratory-confirmed COVID-19 represents the week-over-week absolute difference between the average occupancy of patients with confirmed COVID-19 in staffed inpatient beds in the past week, compared with the prior week, in the entire jurisdiction.
• COVID-19 ICU Bed Occupancy Value: Percentage of all staffed inpatient beds occupied by adult patients with confirmed COVID-19 within the entire jurisdiction is calculated as an average of valid daily values within the past week (e.g., if only three valid values, the average of those three is taken). Averages are separately calculated for the daily numerators (adult patients hospitalized with confirmed COVID-19) and denominators (staffed adult ICU beds). The average percentage can then be taken as the ratio of these two values for the entire jurisdiction.
• COVID-19 ICU Bed Occupancy Level: Qualitative value of ICU beds occupied by COVID-19 patients level [Minimal, Low, Moderate, Substantial, High, Insufficient data]
• COVID-19 ICU Bed Occupancy percent change from prior week: The absolute change in the percent of staffed ICU beds occupied by patients with laboratory-confirmed COVID-19 represents the week-over-week absolute difference between the average occupancy of patients with confirmed COVID-19 in staffed adult ICU beds for the past week, compared with the prior week, in the in the entire jurisdiction.
• For all metrics, if there are no data in the specified locality for a given week, the metric value is displayed as “insufficient data”.

Notes: June 15, 2023: Due to incomplete or missing hospital data received for the June 4, 2023, through June 10, 2023, reporting period, the COVID-19 Hospital Admissions Level could not be calculated for CNMI and AS and will be reported as “NA” or “Not Available” in the COVID-19 Hospital Admissions Level data released on June 15, 2023.

July 10, 2023: Due to incomplete or missing hospital data received for the June 25, 2023, through July 1, 2023, reporting period, the COVID-19 Hospital Admissions Level could not be calculated for CNMI and AS and will be reported as “NA” or “Not Available” in the COVID-19 Hospital Admissions Level data released on July 10, 2023.

July 17, 2023: Due to incomplete or missing hospital data received for the July 2, 2023, through July 8, 2023, reporting

Digital Map Service Market Outlook

The global digital map service market size is projected to grow significantly, from approximately $18.9 billion in 2023 to an estimated $53.1 billion by 2032, reflecting a compelling Compound Annual Growth Rate (CAGR) of 12.5%. This robust growth is driven by the increasing adoption of digital mapping technologies across diverse industries and the rising demand for real-time geographic and navigation data in both consumer and enterprise applications.

One of the primary growth factors for the digital map service market is the expanding use of digital maps in the automotive sector, particularly in the development of Advanced Driver Assistance Systems (ADAS) and autonomous vehicles. These technologies rely heavily on precise and up-to-date mapping data for navigation, obstacle detection, and other functionalities, making digital maps indispensable. Additionally, the proliferation of mobile devices and the integration of mapping services in applications such as ride-sharing, logistics, and local search have significantly contributed to market expansion.

Another significant driver is the increasing reliance on Geographic Information Systems (GIS) across various industries. GIS technology enables organizations to analyze spatial information, improve decision-making processes, and enhance operational efficiencies. Industries such as government, defense, agriculture, and urban planning utilize GIS for land use planning, disaster management, and resource allocation, among other applications. The continuous advancements in GIS technology and the integration of artificial intelligence (AI) and machine learning (ML) are expected to further propel market growth.

The rising demand for real-time location data is also a crucial factor fueling the growth of the digital map service market. Real-time location data is essential for applications such as fleet management, asset tracking, and public safety. Businesses leverage this data to optimize routes, monitor assets, and enhance customer service. The increasing implementation of Internet of Things (IoT) devices and the growing importance of location-based services are likely to sustain the demand for real-time mapping solutions in the coming years.

Regionally, North America leads the digital map service market, driven by the high adoption rate of advanced technologies and the presence of major players in the region. However, the Asia Pacific region is expected to witness the fastest growth, attributed to rapid urbanization, increasing smartphone penetration, and government initiatives to develop smart cities. Europe, Latin America, and the Middle East & Africa are also anticipated to experience substantial growth, fueled by the rising demand for digital mapping solutions across various sectors.

Service Type Analysis

In the digital map service market, the service type segment includes mapping and navigation, geographic information systems (GIS), real-time location data, and others. Mapping and navigation services hold a significant share in the market, primarily due to their extensive use in personal and commercial navigation systems. These services provide detailed road maps, traffic updates, and route planning, which are essential for everyday commuting and logistics operations. The continuous advancements in navigation technologies, such as integration with AI and ML for predictive analytics, are expected to enhance the accuracy and functionality of these services.

Geographic Information Systems (GIS) represent another critical segment within the digital map service market. GIS technology is widely used in various applications, including urban planning, environmental management, and disaster response. The ability to analyze and visualize spatial data in multiple layers allows organizations to make informed decisions and optimize resource allocation. The integration of GIS with other emerging technologies, such as drones and remote sensing, is further expanding its application scope and driving market growth.

Real-time location data services are gaining traction due to their importance in applications like fleet management, asset tracking, and location-based services. These services provide up-to-the-minute information on the geographical position of assets, vehicles, or individuals, enabling businesses to improve operational efficiency and customer satisfaction. The growing adoption of IoT devices and the increasing need for real-time visibility in supply chain operations are expected to bolster the demand for real-time location data services.</p&

Metrics from individual Marketplaces during the current reporting period. The report includes data for the states using State-based Marketplaces (SBMs) that use their own eligibility and enrollment platforms
Source: State-based Marketplace (SBM) operational data submitted to CMS. Each monthly reporting period occurs during the first through last day of the reported month. SBMs report relevant Marketplace activity from April 2023 (when unwinding-related renewals were initiated in most SBMs) through the end of a state’s Medicaid unwinding renewal period and processing timeline, which will vary by SBM. Some SBMs did not receive unwinding-related applications during reporting period months in April or May 2023 due to renewal processing timelines. SBMs that are no longer reporting Marketplace activity due to the completion of a state’s Medicaid unwinding renewal period are marked as NA. Some SBMs may revise data from a prior month and thus this data may not align with that previously reported. For April, Idaho’s reporting period was from February 1, 2023 to April 30, 2023.

Notes:

1. This table represents consumers whose Medicaid/CHIP coverage was denied or terminated following renewal and 1) whose applications were processed by an SBM through an integrated Medicaid, CHIP, and Marketplace eligibility system or 2) whose applications/information was sent by a state Medicaid or CHIP agency to an SBM through an account transfer process. Consumers who submitted applications to an SBM that can be matched to a Medicaid/CHIP record are also included. See the "Data Sources and Metrics Definition Overview" at http://www.medicaid.gov for a full description of the differences between the SBM operating systems and resulting data metrics, measure definitions, and general data limitations. As of the September 2023 report, this table was updated to differentiate between SBMs with an integrated Medicaid, CHIP, and Marketplace eligibility system and those with an account transfer process to better represent the percentage of QHP selections in relation to applicable consumers received and processed by the relevant SBM. State-specific variations are:
   - Maine’s data and Nevada’s April and May 2023 data report all applications with Medicaid/CHIP denials or terminations, not only those part of the annual renewal process. - Connecticut, Massachusetts, and Washington also report applications with consumers determined ineligible for Medicaid/CHIP due to procedural reasons. - Minnesota and New York report on eligibility and enrollment for their Basic Health Programs (BHP). Effective April 1, 2024, New York transitioned its BHP to a program operated under a section 1332 waiver, which expands eligibility to individuals with incomes up to 250% of FPL. As of the March 2024 data, New York reports on consumers with expanded eligibility and enrollment under the section 1332 waiver program in the BHP data. - Idaho’s April data on consumers eligible for a QHP with financial assistance do not depict a direct correlation to consumers with a QHP selection. - Virginia transitioned from using the HealthCare.gov platform in Plan Year 2023 to an SBM using its own eligibility and enrollment platform in Plan Year 2024. Virginia's data are reported in the HealthCare.gov and HeathCare.gov Transitions Marketplace Medicaid Unwinding Reports through the end of 2024 and is available in SBM reports as of the April 2024 report. Virginia's SBM data report all applications with Medicaid/CHIP denials or terminations, not only those part of the annual renewal process, and as a result are not directly comparable to their data in the HealthCare.gov data reports. - Only SBMs with an automatic plan assignment process have and report automatic QHP selections. These SBMs make automatic plan assignments into a QHP for a subset of individuals and provide a notification of options regarding active selection of an alternative plan and/or, if appli

Market Size and Growth: The global map navigation service market is projected to exhibit a substantial compound annual growth rate (CAGR) during the forecast period, reaching a market valuation of several million US dollars by 2033. Key drivers for this growth include the increasing demand for navigation systems in various transportation sectors, the rise of connected and autonomous vehicles, and the growing adoption of mobile navigation devices. The market is segmented based on type (centralized mapping, crowdsourced mapping), application (aviation, agriculture, military, transportation), and geographical regions. Trends and Players: Emerging trends in the map navigation service market include the integration of real-time traffic data, enhanced route optimization, and the use of artificial intelligence (AI) for improved location-based services. Leading companies in the industry include Orolia, Furuno Electronics, Garmin International, TomTom NV, and Navinfo. These companies are investing in research and development to offer innovative navigation solutions that cater to the evolving needs of consumers and businesses. Europe, North America, and Asia-Pacific are significant markets for map navigation services, driven by high adoption rates and technological advancements. However, restraints such as data privacy concerns and the availability of free navigation apps may impact market growth to some extent.

Airport Service Animal Relief Area Market Outlook

According to our latest research, the global airport service animal relief area market size reached USD 1.12 billion in 2024, demonstrating robust growth driven by rising air travel and enhanced regulations for accessibility. The market is projected to grow at a CAGR of 7.3% during the forecast period, reaching an estimated USD 2.12 billion by 2033. This expansion is primarily fueled by stricter compliance requirements for accommodating passengers with service animals, increased awareness of inclusivity, and ongoing investments in airport infrastructure modernization.

One of the primary growth factors in the airport service animal relief area market is the global push for enhanced accessibility standards at transportation hubs. Regulatory bodies such as the United States Department of Transportation (DOT) and the European Union Aviation Safety Agency (EASA) have introduced stringent mandates that require airports to provide designated relief areas for service animals. These mandates are not only limited to major international airports but are increasingly being enforced at regional and domestic airports as well. The growing emphasis on inclusivity and compliance with the Americans with Disabilities Act (ADA) and similar regulations worldwide has compelled airport authorities to invest in both indoor and outdoor relief areas, thereby significantly driving market demand.

Another significant driver is the surge in air travel among passengers with disabilities, including those who rely on service animals for assistance. The global air passenger volume has consistently increased, with a notable rise in the number of travelers accompanied by service animals. This demographic shift is prompting airports to enhance their amenities and ensure a seamless travel experience for all passengers. Airport service animal relief areas are becoming a critical component of the passenger journey, especially as airlines and airport operators recognize the importance of customer satisfaction and loyalty. The integration of advanced features such as automated cleaning systems, real-time occupancy monitoring, and animal-friendly materials further adds value and differentiation in a competitive market.

Technological advancements and innovative facility designs are also shaping the evolution of the airport service animal relief area market. Airports are increasingly adopting smart technologies to optimize cleanliness, safety, and user experience in these areas. The incorporation of touchless entry systems, odor control solutions, and eco-friendly materials aligns with broader trends in airport sustainability and digital transformation. Furthermore, collaborations between airport authorities, animal welfare organizations, and technology providers are fostering the development of user-centric, efficient, and hygienic relief areas. These advancements are expected to accelerate market growth as airports strive to remain at the forefront of accessibility and passenger service innovation.

From a regional perspective, North America continues to dominate the airport service animal relief area market, accounting for the largest revenue share in 2024. The region's leadership is attributed to early adoption of accessibility regulations, high air passenger traffic, and significant investments in airport infrastructure. Europe follows closely, driven by robust regulatory frameworks and a strong focus on inclusivity within the aviation sector. Meanwhile, Asia Pacific is emerging as a high-growth region, propelled by rapid airport expansions, increasing awareness of accessibility needs, and rising passenger numbers. Latin America and the Middle East & Africa are also witnessing gradual adoption, although infrastructure development and regulatory enforcement remain key challenges in these regions.

Type Analysis

The type segment of the airport service animal relief area market is bifurcated into indoor relief areas and outdoor relief areas, each catering to distinct ope

Demographic trends play a major role in shaping the healthcare landscape, as economic factors and an aging population contribute to fast-rising healthcare spending. While consumers are spending more on healthcare services in the US, healthcare providers are confronting complex challenges related to labor, competition and tech advances. The COVID-19 pandemic exposed healthcare and social assistance providers to unprecedented financial and operational pressures, with the lasting impacts still shaping every corner of the sector in 2024. Providers continue to grapple with workforce shortages intensified by the pandemic, resulting in ongoing staffing and recruitment challenges that pressure wage growth and new strategies to recruit and retain. At the same time, consolidation activity is reshaping the healthcare landscape, with more patients than ever receiving care from massive, integrated health systems rather than independent ones. Meanwhile, social assistance providers are finding it difficult to meet rising demand. Despite this challenging operating environment, revenue has been expanding at a CAGR of 3.1% to an estimated $4.1 trillion over the past five years, with revenue rising an expected 3.2% in 2025. Healthcare and social assistance providers are struggling to address staffing challenges. The pandemic exacerbated existing staffing shortages, as the physical and mental toll of the pandemic pushed some to leave the sector entirely. Persistent labor shortages jeopardize healthcare and social assistance providers' ability to address demand, creating widespread staff burnout, high turnover rates and wage inflation. While the health sector labor market began stabilizing in 2024, alleviating wage pressures, an undersized workforce still leaves hundreds of thousands of jobs open. Statewide and federal initiatives have been enacted to direct investment into building a more robust workforce. Demographic trends will continue to be the driving force behind rising healthcare spending moving forward. However, increasing demand and elevated costs will pressure healthcare and social assistance providers to shift how they operate. Some regulatory measures, like the Inflation Reduction Act, could mitigate rising costs in some areas, specifically pharmaceuticals. Consolidation activity will ramp up as smaller providers join larger health groups to secure larger insurer reimbursements through negotiating power. Digital tools and telehealth will become central in healthcare delivery because of their ability to lower costs, increase capacity, bridge health inequities and improve patient outcomes. In all, sector revenue will grow at a CAGR of 2.6% to reach an estimated $4.7 trillion over the next five years.

This dataset contains select monthly performance statistics that DOI regularly reports to the Mayor's Office of Operations for 2010 - 2015. This dataset includes several indicators that are cummulated for the Mayor's Management Reports, such as the including numbers of complaints received by the Agency and the numbers of arrests made. This dataset also includes monthly statistics on the Agency's outreach efforts (anticorrupion and whistleblower lectures) as well customer service indicators (such as the number of emails received by the Agency).

The global medical-social work services market is experiencing robust growth, driven by several key factors. An aging global population, increasing prevalence of chronic diseases requiring ongoing care, and a rising demand for integrated healthcare models are significantly boosting market expansion. The integration of social work into healthcare settings improves patient outcomes, reduces hospital readmissions, and enhances overall patient satisfaction, leading to increased investment in these services. Technological advancements, such as telehealth platforms and electronic health records, are also streamlining workflows and expanding access to medical-social work services. Based on industry reports and observed growth trends in related sectors, we estimate the 2025 market size to be approximately $150 billion, with a Compound Annual Growth Rate (CAGR) of 7% projected from 2025 to 2033. This growth is further fueled by the increasing awareness of mental health issues and the expanding role of social workers in addressing social determinants of health, such as poverty, housing insecurity, and lack of access to resources. This contributes to a holistic approach to patient care, moving beyond purely clinical interventions. The market segmentation, encompassing services like patient intake screening, counseling, and education, across various settings including hospitals, nursing homes, and residential treatment centers, reflects the diverse applications and growing demand for this crucial healthcare support. While the market exhibits significant growth potential, some challenges remain. These include workforce shortages within the social work profession, particularly in underserved areas, reimbursement complexities, and the need for effective data integration across different healthcare systems. Despite these hurdles, the positive impact on patient care, increasing investment in healthcare infrastructure, and the growing emphasis on value-based care models will sustain and propel the market’s expansion throughout the forecast period. Competition among providers is intensifying, with established healthcare systems and specialized social work agencies vying for market share, driving innovation and service improvements. The market’s growth trajectory points to a continuously expanding role for medical-social work services in the future of healthcare.

This dataset reports various service measures for the Asotin County (WA) Library District. These include visits to the library, computer and internet access, and circulation of various materials. The library district reports the figures annually to the Public Libraries Survey, administered by the Washington State Library in cooperation with the U.S. Institute of Museum and Library Services. For a detailed glossary of terms and more information about the survey, visit the Statistics page at the Washington State Library: https://www.sos.wa.gov/library/libraries/libdev/publications.aspx#WAStats

Telepediatrics Services Market Outlook

According to our latest research, the global telepediatrics services market size reached USD 2.14 billion in 2024, reflecting a robust expansion driven by the increasing adoption of digital health technologies in pediatric care. The market is expected to grow at a CAGR of 18.7% from 2025 to 2033, reaching a forecasted value of USD 11.85 billion by 2033. This growth is propelled by rising demand for accessible pediatric healthcare, technological advancements in telemedicine, and a growing emphasis on remote patient management for children. As per our latest research, the market’s momentum is underpinned by the need for continuous, high-quality pediatric care, even in remote and underserved areas.

Growth in the telepediatrics services market is primarily attributed to the rapid integration of telehealth solutions into mainstream pediatric practice. The COVID-19 pandemic served as a catalyst, accelerating the adoption of telemedicine across healthcare systems worldwide. Pediatricians and healthcare providers increasingly recognize the benefits of telepediatrics, such as improved access to specialist care, reduced travel time and costs for families, and enhanced patient monitoring. Additionally, the prevalence of chronic diseases among children, such as asthma, diabetes, and obesity, is rising, necessitating regular follow-ups and continuous care. Telepediatrics enables healthcare professionals to monitor and manage these conditions effectively, ensuring timely interventions and reducing the risk of complications. As parents and caregivers become more digitally literate, their willingness to utilize telemedicine platforms for their children’s healthcare needs is also increasing, further fueling market growth.

Another significant growth factor for the telepediatrics services market is the advancement in digital health infrastructure and supportive regulatory frameworks. Governments and healthcare organizations are investing heavily in telehealth infrastructure, including secure communication platforms, electronic health records (EHRs), and remote monitoring devices. These investments are making it easier for pediatricians to deliver high-quality care remotely. Regulatory bodies in several countries have also relaxed restrictions on telemedicine reimbursement and cross-border consultations, making telepediatrics a more viable and attractive option for healthcare providers. Furthermore, the integration of artificial intelligence (AI) and machine learning in telehealth platforms is enhancing diagnostic accuracy, personalized care plans, and early detection of pediatric illnesses, contributing to improved health outcomes and market expansion.

The growing emphasis on patient-centric care and the need to bridge healthcare disparities are also driving the telepediatrics services market. Telepediatrics is particularly beneficial in rural and underserved regions where access to pediatric specialists is limited. By leveraging telemedicine, healthcare systems can extend their reach, ensuring that children in remote areas receive timely and appropriate care. This not only helps in reducing the burden on tertiary care centers but also empowers local healthcare providers with the expertise needed to manage complex pediatric cases. Educational initiatives aimed at increasing awareness about the benefits of telepediatrics among both healthcare professionals and patients are further supporting the adoption of these services. As telehealth becomes an integral part of healthcare delivery, the telepediatrics services market is poised for sustained growth over the coming years.

From a regional perspective, North America continues to dominate the telepediatrics services market, owing to its advanced healthcare infrastructure, high digital penetration, and favorable reimbursement policies. The United States, in particular, has witnessed significant investments in telehealth platforms and a surge in pediatric teleconsultations. Europe follows closely, with countries like the United Kingdom, Germany, and France implementing robust telehealth policies and expanding access to pediatric care through digital solutions. The Asia Pacific region is emerging as a high-growth market, driven by increasing smartphone penetration, government initiatives to improve healthcare access, and a large pediatric population. Latin America and the Middle East & Africa are gradually adopting telepediatrics, although challenges related to digital infrastructure and regulatory frameworks persist. A

This report estimates the economic value of family caregiving at $450 billion in 2009 based on 42.1 million caregivers age 18 or older providing an average of 18.4 hours of care per week to care recipients age 18 or older, at an average value of $11.16 per hour.

This data is not collected by a government agency. The findings and conclusions in this report are those of the author and do not necessarily represent the views of the Department of Health & Human Services.

Telepsychiatry Services Market Outlook

According to our latest research, the global telepsychiatry services market size reached USD 12.4 billion in 2024, reflecting a dynamic shift in mental healthcare delivery. The market is expected to grow at a robust CAGR of 17.1% from 2025 to 2033, with the forecasted market size projected to reach approximately USD 41.1 billion by 2033. This impressive expansion is primarily driven by rising mental health awareness, increasing demand for remote healthcare solutions, and the growing integration of digital technologies in psychiatric care.

One of the most significant growth factors for the telepsychiatry services market is the heightened awareness and destigmatization of mental health disorders worldwide. Over the past decade, global campaigns and advocacy from governmental and non-governmental organizations have contributed to a more open conversation about mental health. This shift has led to increased diagnosis rates and a broader acceptance of psychiatric interventions, including virtual consultations. The COVID-19 pandemic further accelerated this trend, as lockdowns and social distancing measures made traditional in-person consultations challenging, forcing both providers and patients to turn to telepsychiatry as a viable alternative. As a result, there has been a marked increase in the adoption of telepsychiatry platforms, especially among younger populations who are more tech-savvy and comfortable with digital health solutions.

Technological advancements play a pivotal role in the sustained growth of the telepsychiatry services market. The proliferation of high-speed internet, increased smartphone penetration, and the development of secure, user-friendly telemedicine platforms have made virtual psychiatric care more accessible and reliable. Artificial intelligence and machine learning are being integrated into telepsychiatry services to enhance patient assessment, monitor progress, and personalize treatment plans. These innovations not only improve the quality of care but also help in reducing operational costs for providers, making telepsychiatry a more attractive option for healthcare systems facing budget constraints. Moreover, the integration of electronic health records (EHRs) with telepsychiatry platforms ensures seamless communication and data sharing between patients and providers, further boosting market adoption.

Another critical driver for the telepsychiatry services market is the increasing shortage of mental health professionals, particularly in rural and underserved areas. Telepsychiatry bridges the gap between patients and mental health providers by eliminating geographical barriers and enabling remote consultations. This is especially crucial in regions where the ratio of psychiatrists to patients is alarmingly low, leading to long wait times and inadequate care. Governments and healthcare organizations are increasingly recognizing the potential of telepsychiatry to address these disparities and are investing in infrastructure and reimbursement policies to support its growth. Consequently, telepsychiatry is becoming an integral part of mental health service delivery models, leading to improved patient outcomes and greater market penetration.

From a regional perspective, North America continues to dominate the telepsychiatry services market, accounting for the largest share in 2024, followed by Europe and the Asia Pacific. The high adoption rate in North America can be attributed to advanced healthcare infrastructure, supportive regulatory frameworks, and growing investments in digital health. Europe is witnessing steady growth due to increased government initiatives and rising mental health awareness. Meanwhile, the Asia Pacific region is emerging as a lucrative market, driven by rapid urbanization, increasing smartphone usage, and expanding internet connectivity. Latin America and the Middle East & Africa are also showing promising growth, albeit at a slower pace, as healthcare systems in these regions gradually embrace telepsychiatry solutions.

Service Ty

This data set contains call record data from the 311 call center in Kansas City, MO. This dataset used to be published under the name "KCMOPS311". This name was changed to make the dataset name more reflective of it's contents.

The Monthly Child Care Services Data Report - Families Served by ZIP Code data set includes demographic data of parents and families of children receiving Child Care and Development Fund (CCDF) assistance. The Administration for Children and Families (ACF) Office of Child Care (OCC) collects data regarding the children and families served through the Child Care and Development Fund (CCDF) as well as the types of child care settings and facilities providing services. Each quarterly data set contains data aggregated by ZIP code for each month of the quarter. Counts less than 5 are masked with an asterisk (*) to protect the confidentiality of individuals in this report.

The digital health services market is experiencing robust growth, driven by factors such as the increasing prevalence of chronic diseases, rising adoption of smartphones and wearable technology, and the growing demand for convenient and remote healthcare solutions. The market's expansion is fueled by technological advancements in areas like telehealth, remote patient monitoring (RPM), and artificial intelligence (AI)-powered diagnostics. This allows for personalized medicine, proactive health management, and improved patient outcomes. A significant portion of growth is attributed to the increasing investment in digital health infrastructure and the expanding adoption of value-based care models. This shift encourages healthcare providers to utilize technology for more efficient and cost-effective patient management. We estimate the market size in 2025 to be around $350 billion, considering the global scale of digital health and the substantial investments made in the sector. Looking ahead, the market is poised for continued expansion, with a projected Compound Annual Growth Rate (CAGR) of approximately 15% from 2025 to 2033. This sustained growth will be propelled by several key trends including the increasing integration of digital health solutions into existing healthcare systems, the growing focus on preventative care and personalized medicine, and the expansion of telehealth services into underserved areas. However, challenges remain, including concerns about data privacy and security, regulatory hurdles for new technologies, and the need for widespread digital literacy among both patients and healthcare providers. The market segmentation, with players such as Cityzen Sciences, DexCom, and Medtronic leading the way, showcases diverse offerings catering to specific needs within the broader digital health landscape. The geographical distribution reflects varying levels of technology adoption and healthcare infrastructure across different regions.

The global healthcare teleconsultation services market is projected to reach USD 14.4 billion by 2023, exhibiting a CAGR of 25.2% from 2018 to 2023. The increasing prevalence of chronic diseases, the rising geriatric population, and the growing adoption of mobile health (mHealth) technologies are major factors driving the growth of this market. Additionally, government initiatives and reimbursement policies supporting telemedicine are also contributing to the market expansion. Key trends shaping the healthcare teleconsultation services market include the integration of artificial intelligence (AI) and machine learning (ML) technologies to improve diagnosis and treatment accuracy, the increasing adoption of cloud-based platforms for data storage and management, and the development of innovative telemedicine devices and applications. The market is also witnessing the emergence of new business models, such as pay-per-use and subscription-based services, as well as the expansion of telemedicine services into new areas such as mental health and behavioral health. The competitive landscape of the market is characterized by the presence of both established players and emerging startups, with leading companies including Teladoc, Inc., MDLIVE, Inc., Doctor on Demand, Inc., American Well Corporation, and HealthTap, Inc.

Pediatric Healthcare Service Market Outlook

The global pediatric healthcare service market size was valued at approximately USD 120 billion in 2023 and is projected to reach USD 200 billion by 2032, growing at a compound annual growth rate (CAGR) of 6.3% from 2024 to 2032. The surge in the market can be attributed to the increasing prevalence of chronic diseases among children, growing awareness about pediatric healthcare, and rising investments in healthcare infrastructure. Furthermore, advancements in medical technologies and the increasing demand for specialized pediatric care are fueling market growth.

The growth of the pediatric healthcare service market is significantly driven by the rising incidence of chronic illnesses among children. Conditions such as asthma, diabetes, and obesity are becoming increasingly common, necessitating specialized healthcare services tailored to the unique needs of pediatric patients. Moreover, the growing awareness among parents and guardians about the importance of early diagnosis and treatment of medical conditions in children is boosting the demand for pediatric healthcare services. This awareness is further supplemented by various government initiatives and programs aimed at improving children's health at both national and international levels.

Another critical growth factor is the continuous advancements in medical technologies specifically designed for pediatric care. Innovations such as minimally invasive surgical techniques, advanced diagnostic tools, and personalized medicine are enhancing the quality of care provided to children. These technological advancements not only improve patient outcomes but also reduce the recovery time and hospital stays, making pediatric healthcare more efficient and effective. Additionally, the integration of digital health solutions, like telemedicine and electronic health records, is streamlining pediatric healthcare services, making them more accessible and convenient for both patients and healthcare providers.

The increasing investments in healthcare infrastructure, particularly in emerging economies, are also playing a crucial role in the expansion of the pediatric healthcare service market. Governments and private entities are investing heavily in the development of specialized pediatric hospitals and clinics, equipped with state-of-the-art facilities and staffed by trained healthcare professionals. These investments are improving the accessibility and quality of pediatric healthcare services, particularly in rural and underserved areas. Moreover, the growing focus on healthcare research and development is leading to new and improved treatment options for pediatric patients, further driving market growth.

Regional outlook for the pediatric healthcare service market indicates that North America holds the largest market share due to the presence of a well-established healthcare system, high healthcare expenditure, and favorable government policies. Europe follows closely, with significant contributions from countries like Germany, France, and the UK. The Asia Pacific region is expected to witness the highest growth rate during the forecast period, driven by the increasing population, rising disposable incomes, and growing awareness about pediatric healthcare. Countries like China and India are at the forefront of this growth, with significant investments in healthcare infrastructure and services.

Service Type Analysis

The pediatric healthcare service market can be segmented by service type into inpatient services, outpatient services, emergency services, and others. Inpatient services, which include hospitalization and overnight stays, are a critical component of pediatric healthcare. These services cater to children with severe illnesses or conditions that require constant monitoring and specialized care. The demand for inpatient services is driven by the increasing prevalence of chronic diseases, such as congenital heart defects and cancer, that necessitate prolonged treatment and care. Additionally, advancements in medical treatments and technologies are enhancing the quality of inpatient care, further boosting this segment.

Outpatient services, which encompass routine check-ups, vaccinations, and minor treatments, represent another significant segment of the pediatric healthcare service market. The increasing focus on preventive healthcare and early diagnosis is driving the demand for outpatient services. Regular health check-ups and vaccinations are crucial for monitoring the growth and development of children and for preventing various diseases. Moreover, the convenience and