Estimated number of persons by quarter of a year and by year, Canada, provinces and territories.

This statistic shows the estimated population of Northwest Territories, Canada from 2000 to 2022. In 2022, the estimated population of Northwest Territories was 45,605 people. This is an increase from 2000, when there were about 40,480 people living in Northwest Territories.

It is presumed that the first humans migrated from Siberia to North America approximately twelve thousand years ago, where they then moved southwards to warmer lands. It was not until many centuries later that humans returned to the north and began to settle regions that are now part of Canada. Despite a few short-lived Viking settlements on Newfoundland around the turn of the first millennium CE, the Italian explorer Giovanni Caboto (John Cabot), became the first European to explore the coast of North America in the late 1400s. The French and British crowns both made claims to areas of Canada throughout the sixteenth century, but real colonization and settlement did not begin until the early seventeenth century. Over the next 150 years, France and Britain competed to take control of the booming fur and fishing trade, and to expand their overseas empires. In the Seven Year's War, Britain eventually defeated the French colonists in North America, through superior numbers and a stronger agriculture resources in the southern colonies, and the outcome of the war saw France cede practically all of it's colonies in North America to the British.

Increased migration and declining native populations

The early 1800s saw a large influx of migrants into Canada, with the Irish Potato Famine bringing the first wave of mass-migration to the country, with further migration coming from Scandinavia and Northern Europe. It is estimated that the region received just shy of one million migrants from the British Isles alone, between 1815 and 1850, which helped the population grow to 2.5 million in the mid-1800s and 5.5 million in 1900. It is also estimated that infectious diseases killed around 25 to 33 percent of all Europeans who migrated to Canada before 1891, and around a third of the Canadian population is estimated to have emigrated southwards to the United States in the 1871-1896 period. From the time of European colonization until the mid-nineteenth century, the native population of Canada dropped from roughly 500,000 (some estimates put it as high as two million) to just over 100,000; this was due to a mixture of disease, starvation and warfare, instigated by European migration to the region. The native population was generally segregated and oppressed until the second half of the 1900s; Native Canadians were given the vote in 1960, and, despite their complicated and difficult history, the Canadian government has made significant progress in trying to include indigenous cultures in the country's national identity in recent years. As of 2020, Indigenous Canadians make up more than five percent of the total Canadian population, and a higher birth rate means that this share of the population is expected to grow in the coming decades.

Independence and modern Canada

Canadian independence was finally acknowledged in 1931 by the Statute of Westminster, putting it on equal terms with the United Kingdom within the Commonwealth; virtually granting independence and sovereignty until the Canada Act of 1982 formalized it. Over the past century, Canada has had a relatively stable political system and economy (although it was hit particularly badly by the Wall Street Crash of 1929). Canada entered the First World War with Britain, and as an independent Allied Power in the Second World War; Canadian forces played pivotal roles in a number of campaigns, notably Canada's Hundred Days in WWI, and the country lost more than 100,000 men across both conflicts. The economy boomed in the aftermath of the Second World War, and a stream of socially democratic programs such as universal health care and the Canadian pension plan were introduced, which contributed to a rise in the standard of living. The post war period also saw various territories deciding to join Canada, with Newfoundland joining in 1949, and Nunavut in 1999. Today Canada is among the most highly ranked in countries in terms of civil liberties, quality of life and economic growth. It promotes and welcomes immigrants from all over the world and, as a result, it has one of the most ethnically diverse and multicultural populations of any country in the world. As of 2020, Canada's population stands at around 38 million people, and continues to grow due to high migration levels and life expectancy, and a steady birth rate.

The provide detailed statistical tables for 18 scenarios by single year of the projection period (2001 to 2017). For each of the scenarios, data are available for persons who identify with each of the following three groups: the North American Indian population, the Métis or the Inuit. All three groups were projected separately for each of the ten provinces and three territories. However, the subprovincial and subterritorial level shown for the three groups varies as it depends on the groups' size. For the North American Indians, future numbers were calculated for the urban parts of all census metropolitan areas (CMAs), urban areas outside CMAs, rural areas and reserves. For the Métis, places of residence were grouped into urban parts of CMAs, urban areas outside CMAs and rural areas, which also include reserves. Because of their relatively small size, the Inuit population was projected separately for urban and rural locations only. This information is further broken down by age and sex. The 18 scenarios, as well as scenario-specific assumptions on the future trend in fertility and internal migration, are presented in the table below. In addition to these two components of population growth, all scenarios assumed declining mortality and negligible importance of international migration to the change of the size of three Aboriginal groups. The statistical tables of this CD-ROM are organized into three sections: 1 - Aboriginal groups - The projected population by Aboriginal group, type of residence, province/territory and sex for the 18 scenarios by single year from 2001 to 2017; 2 - Age and sex - The projected population by Aboriginal group, type of residence, age group and sex for the 18 scenarios by single year from 2001 to 2017; and 3 - Province/territory - The projected total Aboriginal population by province/territory, age group, sex and type of residence for the 18 scenarios for 2001 and 2017. The statistical tables are supplementary to the publication Projections of the Aboriginal populations, Canada, provinces and territories: 2001 to 2017 (catalogue no. 91-547). For current population projections for Canada, provinces, and territories data refer to Statistics Canada Access data by All-Aboriginal Groups here Access data by Age and Sex here Access data by Provinces and Territories here

Sub-provincial population estimates and projections by age and gender for a variety of region types. Customizable breakdowns for counts and additional statistics are available via BC Stats' Population App. Estimates: A population estimate is a measure of the current or historical population. BC Stats annually releases total population estimates for sub-provincial region types. These estimates are consistent in aggregate with the July 1st provincial level estimates produced by Statistics Canada. More information can be found on BC Stats' Population Estimates page. Projections: A population projection is a forecast of future population growth. BC Stats applies the Component/Cohort-Survival method to project the population. This method "grows" the population from the latest base year estimate by forecasting births, deaths and migration by age. These forecasts are based on past trends modified to account for possible future changes and, consequently, should be viewed as only one possible scenario of future population. Projections are also released annually and are as of July 1st. The methodological document, P.E.O.P.L.E. Sub-provincial Population Projections: Methodology and Assumptions, is provided only for reference. More information can be found on BC Stats' Population Projections page. Wondering about the location of a particular region or its boundaries? Check out the Administrative Boundaries page for more information.

Contained within the 3rd Edition (1957) of the Atlas of Canada is a plate that shows the distribution of population in what is now Canada circa 1851, 1871, 1901, 1921 and 1941. The five maps display the boundaries of the various colonies, provinces and territories for each date. Also shown on these five maps are the locations of principal cities and settlements. These places are shown on all of the maps for reference purposes even though they may not have been in existence in the earlier years. Each map is accompanied by a pie chart providing the percentage distribution of Canadian population by province and territory corresponding to the date the map is based on. It should be noted that the pie chart entitled Percentage Distribution of Total Population, 1851, refers to the whole of what was then British North America. The name Canada in this chart refers to the province of Canada which entered confederation in 1867 as Ontario and Quebec. The other pie charts, however, show only percentage distribution of population in what was Canada at the date indicated. Three additional graphs are included on this plate and show changes in the distribution of the population of Canada from 1867 to 1951, changes in the percentage distribution of the population of Canada by provinces and territories from 1867 to 1951 and elements in the growth of the population of Canada for each ten-year period from 1891 to 1951.

The provide detailed statistical tables for 18 scenarios by single year of the projection period (2001 to 2017). For each of the scenarios, data are available for persons who identify with each of the following three groups: the North American Indian population, the Métis or the Inuit. All three groups were projected separately for each of the ten provinces and three territories. However, the subprovincial and subterritorial level shown for the three groups varies as it depends on the groups' size. For the North American Indians, future numbers were calculated for the urban parts of all census metropolitan areas (CMAs), urban areas outside CMAs, rural areas and reserves. For the Métis, places of residence were grouped into urban parts of CMAs, urban areas outside CMAs and rural areas, which also include reserves. Because of their relatively small size, the Inuit population was projected separately for urban and rural locations only. This information is further broken down by age and sex. The 18 scenarios, as well as scenario-specific assumptions on the future trend in fertility and internal migration, are presented in the table below. In addition to these two components of population growth, all scenarios assumed declining mortality and negligible importance of international migration to the change of the size of three Aboriginal groups. The statistical tables of this CD-ROM are organized into three sections: Aboriginal groups - The projected population by Aboriginal group, type of residence, province/territory and sex for the 18 scenarios by single year from 2001 to 2017; Age and sex - The projected population by Aboriginal group, type of residence, age group and sex for the 18 scenarios by single year from 2001 to 2017; and Province/territory - The projected total Aboriginal population by province/territory, age group, sex and type of residence for the 18 scenarios for 2001 and 2017. The statistical tables are supplementary to the publication Projections of the Aboriginal populations, Canada, provinces and territories: 2001 to 2017 (catalogue no. 91-547).

Contained within the 3rd Edition (1957) of the Atlas of Canada is a plate that shows the distribution of population in what is now Canada circa 1851, 1871, 1901, 1921 and 1941. The five maps display the boundaries of the various colonies, provinces and territories for each date. Also shown on these five maps are the locations of principal cities and settlements. These places are shown on all of the maps for reference purposes even though they may not have been in existence in the earlier years. Each map is accompanied by a pie chart providing the percentage distribution of Canadian population by province and territory corresponding to the date the map is based on. It should be noted that the pie chart entitled Percentage Distribution of Total Population, 1851, refers to the whole of what was then British North America. The name Canada in this chart refers to the province of Canada which entered confederation in 1867 as Ontario and Quebec. The other pie charts, however, show only percentage distribution of population in what was Canada at the date indicated. Three additional graphs are included on this plate and show changes in the distribution of the population of Canada from 1867 to 1951, changes in the percentage distribution of the population of Canada by provinces and territories from 1867 to 1951 and elements in the growth of the population of Canada for each ten-year period from 1891 to 1951.

This table contains 254745 series, with data for years 1986 - 2006 (not all combinations necessarily have data for all years). This table contains data described by the following dimensions (Not all combinations are available): Geography (85 items: Newfoundland and Labrador; Avalon Peninsula; Newfoundland and Labrador; West Coast-Northern Peninsula-Labrador; Newfoundland and Labrador; South Coast-Burin Peninsula; Newfoundland and Labrador ...) Components of population growth (9 items: Deaths; Immigrants; Returning emigrants; Emigrants ...) Sex (3 items: Both sexes; Females; Males ...) Age group (111 items: All ages; 0 to 4 years; 0 years; Under 1 year ...).

This table contains 237096 series, with data for years 1996 - 2011 (not all combinations necessarily have data for all years). This table contains data described by the following dimensions (Not all combinations are available): Geography (89 items: Newfoundland and Labrador; South Coast-Burin Peninsula; Newfoundland and Labrador; West Coast-Northern Peninsula-Labrador; Newfoundland and Labrador; Avalon Peninsula; Newfoundland and Labrador ...) Components of population growth (8 items: Deaths; Immigrants; Emigrants; Returning emigrants ...) Sex (3 items: Both sexes; Males; Females ...) Age group (111 items: All ages; 0 years; 0 to 4 years; -1 year ...).

This table contains 237096 series, with data for years 1996 - 2011 (not all combinations necessarily have data for all years). This table contains data described by the following dimensions (Not all combinations are available): Geography (89 items: Newfoundland and Labrador; South Coast-Burin Peninsula; Newfoundland and Labrador; West Coast-Northern Peninsula-Labrador; Newfoundland and Labrador; Avalon Peninsula; Newfoundland and Labrador ...) Components of population growth (8 items: Deaths; Immigrants; Emigrants; Returning emigrants ...) Sex (3 items: Both sexes; Males; Females ...) Age group (111 items: All ages; 0 years; 0 to 4 years; -1 year ...).

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Population Health Management Market Size 2025-2029

The population health management market size is forecast to increase by USD 19.40 billion at a CAGR of 10.7% between 2024 and 2029.

The Population Health Management Market is experiencing significant growth, driven by the increasing adoption of healthcare IT solutions and the rising focus on personalized medicine. The implementation of electronic health records (EHRs) and other digital health technologies has enabled healthcare providers to collect and analyze large amounts of patient data, facilitating proactive care and population health management. Moreover, the trend towards personalized medicine, which aims to tailor healthcare treatments to individual patients based on their unique genetic makeup and health history, is further fueling the demand for PHM solutions. However, the high cost of installing and implementing these platforms poses a significant challenge for market growth.
Despite this, the potential benefits of PHM, including improved patient outcomes, reduced healthcare costs, and enhanced population health, make it an attractive area for investment and innovation. Companies seeking to capitalize on these opportunities must navigate the challenges of data privacy and security, interoperability, and integration with existing healthcare systems. By addressing these challenges and focusing on delivering actionable insights from patient data, PHM solution providers can help healthcare organizations optimize their resources, improve patient care, and ultimately, improve population health.

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The market is experiencing significant growth, driven by the increasing focus on accountable care organizations (ACOs) and payer organizations to improve health outcomes and reduce costs. Healthcare professionals are leveraging big data, data analytics services, and clinical data integration to develop personalized care plans and implement intervention strategies for various populations. Telehealth services have become essential in population health management, enabling care coordination, health promotion, and health navigation for patients. Health equity is a critical factor in population health management, with a growing emphasis on addressing disparities and ensuring equal access to care.
Data security and interoperability standards are essential in population health management, as healthcare providers exchange sensitive patient data for risk adjustment, care pathways, and quality reporting. Data mining and data visualization tools are used to identify health behavior changes and lifestyle modifications, leading to better health outcomes. Consumer health technology, such as patient engagement tools and wearable technology, are playing an increasingly important role in population health management. Health coaching and evidence-based medicine are intervention strategies used to prevent diseases and improve health outcomes. In summary, the market in the US is characterized by the adoption of precision medicine, health literacy, clinical guidelines, and personalized care plans.
The market is driven by the need for care coordination, data analytics, and patient engagement to improve health outcomes and reduce costs. The use of data security, data mining, and interoperability standards ensures the effective exchange and utilization of health data.

How is this Population Health Management Industry segmented?

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

Component

  Software
  Services


End-user

  Large enterprises
  SMEs


Delivery Mode

  On-Premise
  Cloud-Based
  Web-Based
  On-Premise
  Cloud-Based


End-Use

  Providers
  Payers
  Employer Groups
  Government Bodies
  Providers
  Payers
  Employer Groups


Geography

  North America

    US
    Canada


  Europe

    France
    Germany
    Italy
    UK


  APAC

    China
    India
    Japan
    South Korea


  Rest of World

By Component Insights

The software segment is estimated to witness significant growth during the forecast period.

The market's software segment is experiencing significant growth and innovation. Healthcare organizations are utilizing these solutions to effectively manage and enhance the health outcomes of diverse populations. The software component incorporates various tools that collect, analyze, and utilize health data for informed decision-making. Population health management platforms gather data from multiple sources, such as electronic health records, claims data, and patient-generated data. These platforms employ advanced analytics to generate valuable insi

Canada’s appeal as an immigration destination has been increasing over the past two decades, with a total of 464,265 people immigrating to the country in 2024. This figure is an increase from 2000-2001, when approximately 252,527 immigrants came to Canada. Immigration to the Great White North Between July 1, 2022 and June 30, 2023, there were an estimated 199,297 immigrants to Ontario, making it the most popular immigration destination out of any province. While the number of immigrants has been increasing over the years, in 2024 over half of surveyed Canadians believed that there were too many immigrants in the country. However, in 2017, the Canadian government announced its aim to significantly increase the number of permanent residents to Canada in order to combat an aging workforce and the decline of working-age adults. Profiles of immigrants to Canada The gender of immigrants to Canada in 2023 was just about an even split, with 234,279 male immigrants and 234,538 female immigrants. In addition, most foreign-born individuals in Canada came from India, followed by China and the Philippines. The United States was the fifth most common origin country for foreign-born residents in Canada.

Identifying the specific environmental features and associated density-dependent processes that limit population growth is central to both ecology and conservation. Comparative assessments of sympatric species allow for inference into how ecologically similar species differentially respond to their shared environment, which can be used to inform community-level conservation strategies. Comparative assessments can nevertheless be complicated by interactions and feedback loops among the species in question. We developed an integrated population model based on sixty-one years of ecological data describing the demographic histories of Canvasbacks (Aythya valisineria) and Redheads (Aythya americana), two species of migratory diving ducks that utilize similar breeding habitats and affect each other’s demography through interspecific nest parasitism. We combined this model with a transient life table response experiment to determine the extent that demographic rates, and their contributions to population growth, were similar between these two species. We found that demographic rates and, to a lesser extent, their contributions to population growth covaried between Canvasbacks and Redheads, but the trajectories of population abundances widely diverged between the two species during the end of the 20th century due to inherent differences between the species life-histories and sensitivities to both environmental variation and harvest pressure. We found that annual survival of both species increased during years of restrictive harvest regulations; however, recent harvest pressure on female Canvasbacks may be contributing to population declines. Despite periodic, and often dramatic, increases in breeding abundance during wet years, the number of breeding Canvasbacks declined by 13% whereas the number of breeding Redheads has increased by 37% since 1961. Reductions in harvest pressure and improvements in submerged aquatic vegetation throughout the wintering grounds have mediated the extent to which populations of both species contracted during dry years in the Prairie Pothole Region. However, continued degradation of breeding habitats through climate-related shifts in wetland hydrology and agricultural conversion of surrounding grassland habitats may have exceeded the capacity for demographic compensation during the non-breeding season. Methods DATA COLLECTION We combined a series of long-term data sets into a single integrated population model that provided insights into how variation in seasonal survival (band releases and recoveries) and offspring production (harvest age-ratios) contributed to fluctuations in population growth (breeding survey, harvest estimates) for Canvasbacks and Redheads from 1961–2021. Banding Data – Information regarding the banding and subsequent harvest of ducks was acquired from the GameBirds Database CD (Bird Banding Lab, USGS Patuxent Wildlife Research Center, Laurel MD, USA, version August 2022). Male and female Canvasbacks and Redheads were captured following breeding but prior to the hunting season (Pre-Hunting) as ducklings (Local) or hatch year (HY; fledged juvenile) individuals as well as after hatch year (AHY; adult) individuals or following the hunting season (Post-Hunting) as an undifferentiated mixture of second year (SY) and after second year (ASY) individuals captured and released across North America from 1961–2022. We limited the pre-harvest banding data for both species to include all individuals banded and released alive in areas within the Canadian provinces of Alberta, Manitoba, Saskatchewan, as well as the states of Minnesota, Montana, North Dakota, and South Dakota within the USA (Fig. 1). For the pre-hunting banding group, we retained individuals captured between 1961–2021 during the late summer (Jul 15th – Sep 15th) with a known sex (M or F) and age-class (local, HY or AHY) that were released without any additional markers considered to meaningfully affect survival of an individual (e.g., nasal saddles or dual banding were permissible but telemetered individuals were excluded; Lameris & Kleyheeg, 2017). For post-hunting banding, we limited the spatial boundary of banding efforts to only consider individuals released from the Atlantic, Central, or Mississippi Flyways (Fig. 1). We followed the same data selection procedures, but limited releases to occur between Jan. 1st – March 15th from 1962–2022. Because too few banders differentiated SY from ASY at time of banding, we treated all post-hunting samples as AHY adults. Individuals banded during this period that were reported to be harvested during the winter they were originally banded were censored from the analysis, as the underlying model assumption was that this cohort of individuals had already survived the current hunting season. For both seasonal banding efforts, we only included recoveries of hunter-shot individuals harvested between September and February in which a known year-of-death could be ascertained. In addition to self-reported recoveries (i.e., reported by the hunter), we included hunter-harvested individuals that were instead reported by federal, state, or provincial entities (e.g., outcomes of hunter check stations or other forms of solicitation). We limited the dataset to only include recoveries of hunter-harvested individuals killed within 15 years of initial banding, which represented > 99% of pre-hunting and post-hunting recoveries. This cut-off was arbitrarily selected but did not meaningfully bias parameter estimation while vastly improving computational efficiency by bypassing the estimation of hundreds of zero-equivalent cell probabilities (personal communication S. Bonner). Harvest Intensity – We used the average number of Canvasbacks or Redheads allowed to be harvested per day (i.e., bag limit; (Appendix S1: Tables S1a-b) across the U.S. portions of the Atlantic, Mississippi, Central, and Pacific flyways during each year of the study as an index of harvest regulatory pressure. Annual harvest restrictions were acquired from the published literature (Péron et al., 2012), the annual release of the Late-Season Migratory Bird Hunting Regulations (e.g., USFWS 2022), and direct requests to the U.S. Fish and Wildlife Service. For these species, liberal harvest regulations were bag limits of two (Canvasbacks) and two to four (Redheads) allowable harvest per day, whereas conservative harvest regulations were either a bag limit of one individual per day or total closure. Harvest Composition – Data describing the age and sex structure of the harvested Canvasback and Redhead populations were derived from the annual Parts Collection surveys conducted by the U.S. Fish and Wildlife Service (USFWS) where a subset of hunters submit a wing from every duck they harvested (Pearse et al. 2014). These data were acquired through a direct request to the U.S. Fish and Wildlife Service. Additionally, estimates of the total number of Canvasbacks and Redheads harvested in the United States and Canada were derived from the Harvest Information Program (Steeg et al., 2002) and Canadian National Harvest Survey (Smith et al., 2022), respectively. Breeding Duck and Pond Densities – The relative number of breeding Canvasbacks and Redheads, as well as the relative amount of their breeding habitat (i.e., flooded ponds) within the Prairies were calculated using count data from the USFWS Waterfowl Breeding Population and Habitat Survey (hereafter BPOP; Smith, 1995), which has conducted an annual survey of breeding waterfowl and their habitats throughout the core part of these species’ breeding ranges (i.e., central Canada and the north-central United States) during the spring from 1961 through 2022 (U.S. Fish and Wildlife Service, 2022). However, BPOP surveys did not occur during 2020 and 2021. For the purposes of this study, we limited the spatial extent of BPOP survey to only include transects flown within Alberta, Manitoba, Saskatchewan, Montana, North Dakota, and South Dakota. Agriculture Development – The amounts of active cropland in the Prairies during each year of the study were estimated from Canada and United States Agriculture Census data (see Buderman et al., 2020). Annual estimates of active cropland acreages were summarized to represent an index of agricultural development during 1961–2021. Although agricultural development is predicted to have greater impact on upland-nesting dabbling ducks (Duncan and Devries 2018), it also impacts the wetland habitats in which Canvasbacks and Redheads forage and nest, as well as the predator communities that can access overwater nesting pochards (Sargeant et al. 1993, Bartzen et al. 2010). Winter Habitat – Winter habitat conditions were assumed to be related to submerged aquatic vegetation (SAV) within the Chesapeake for Canvasbacks and environmental salinity (TDS; total dissolved solids) in the Laguna Madre for Redheads. Although Redheads likely respond to variation in SAV, time series data describing SAV were not available for the Laguna Madre. Therefore, we assumed that annual fluctuations in salinity were an informative proxy of both SAV conditions and osmotic constraints (Quammen and Onuf 1993, Moore 2009), which in turn was representative of winter habitat conditions that simultaneously influenced Redhead food availability and harvest risk (Ballard et al. 2021).. Climate Data – We used the average Pacific/North American (PNA; Leathers et al., 1991) teleconnection pattern from April–July as an index of drought severity or environmental stress during the breeding season throughout the Prairies, and average sea-surface temperatures (SST) from September–March in the Chesapeake and Laguna Madre as an index of winter severity for Canvasbacks and Redheads, respectively (see Data Availability statement).

The North American construction market, valued at $2.46 trillion in 2025, is projected to experience robust growth, driven by a compound annual growth rate (CAGR) of 4.82% from 2025 to 2033. This expansion is fueled by several key factors. Firstly, increasing urbanization and population growth across the United States, Canada, and Mexico are creating significant demand for new residential and commercial buildings. Secondly, substantial investments in infrastructure projects, particularly in transportation networks and energy infrastructure upgrades, are stimulating considerable growth within the infrastructure construction segment. Furthermore, government initiatives promoting sustainable building practices and resilient infrastructure are further accelerating market expansion. The residential sector, encompassing new construction, additions, and renovations, constitutes a significant portion of the market, driven by strong housing demand and mortgage availability. Conversely, the commercial sector is experiencing growth fueled by expansion of existing businesses and the rise of e-commerce, necessitating more warehouse and logistics spaces. The industrial construction segment is also experiencing growth due to reshoring and near-shoring trends. However, the market is not without challenges. Rising material costs, labor shortages, and supply chain disruptions pose significant constraints on construction activity and project timelines. These factors contribute to increased project costs and potential delays. Furthermore, regulatory hurdles and permitting processes can impede project development. Despite these headwinds, the long-term outlook for the North American construction market remains positive, driven by sustained demand and ongoing investments in infrastructure and housing. Key players like Lennar Corporation, D.R. Horton, and Kiewit Corporation are well-positioned to capitalize on these opportunities while navigating the challenges. The market segmentation by construction type (additions, demolition, and new constructions) offers valuable insights into specific growth areas within this expansive sector. Recent developments include: June 2023: AXA XL's North American construction insurance business launched the Sustainability Circle. It is a network comprising 21 leaders in the sustainable construction industry. The goal of the initiative is to assist clients achieve their sustainability goals and enhance their construction risk management efforts., April 2023: Greystar Real Estate Partners LLC (“Greystar”) opened its flagship manufacturing facility for its modular construction business, Modern Living Solutions (“MLS”), which focuses on attainable and sustainable housing. The milestone was met with a ribbon-cutting ceremony at the western Pennsylvania site where MLS employed 170 full-time employees to execute the ramp-up and operations of its first modular factory.. Key drivers for this market are: Population Growth and Disposable Income, Demand from Office Sector Returning Post COVID-; Non-residential Construction on Upward Trend. Potential restraints include: Population Growth and Disposable Income, Demand from Office Sector Returning Post COVID-; Non-residential Construction on Upward Trend. Notable trends are: Residential Construction Segment Holds the Major Share in the Market.

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Urban Planning Software Market Size 2024-2028

The Urban Planning Software Market size is estimated to grow by USD 4.05 billion at a CAGR of 7.81% between 2023 and 2028. Infrastructure development is a priority area for many governments and organizations worldwide, driven by increasing investments and a growing focus on building smart cities. This trend is fueled by several factors, including the expanding middle-class population and the need for efficient, modern infrastructure to support economic growth and improve quality of life. Infrastructure projects encompass various sectors, such as transportation, energy, water supply, and telecommunications, and require significant capital investment and advanced technology. As a result, the infrastructure industry is poised for continued growth and innovation, offering opportunities for businesses and investors alike.

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Market Dynamics

The market is witnessing significant growth due to the increasing number of non-residential construction projects and infrastructure development activities in response to the growing urban population. City planners are leveraging technology to efficiently manage and design urban spaces. The market is segmented into components, which include software and services, and segments, such as the cloud-based segment and web-based segment. Government bodies are also investing in urban planning software to optimize budgets and implement smart city technologies. Emerging countries are leveraging technology advancements and cloud software to enhance construction processes and infrastructure development, with a focus on designing residential buildings, roads, bridges, and rail systems, supported by skilled professionals and real estate companies, while government agencies and service companies implement training programs and resource management solutions to optimize engineering and architectural plans. The latest trends include the integration of 5G technology and data centers to enhance the functionality and efficiency of these tools. Open-source software is gaining popularity due to its cost-effectiveness and flexibility. The United Nations (UN) has emphasized the importance of urban planning to address the challenges of urbanization and sustainability. Urban planning software plays a crucial role in this regard, enabling city planners to create harmonious and livable urban spaces. The market is expected to continue its growth trajectory in the coming years, driven by the increasing demand for efficient and technologically advanced urban planning solutions.

Key Market Driver

One of the key factors driving the market growth is the growing middle-class population. The increasing middle-class population in developing countries in APAC, South America, and MEA is expected to significantly contribute to the market growth. In addition, there is an increase in per capita income due to the rapidly increasing economic activities in developing economies such as China, India, Argentina, Indonesia, and South Africa.

Moreover, the rise in the gross domestic product (GDP) per capita in these countries is also fuelling the rise in the disposable income of the population. In addition, a majority of the population is opting for long-term investment opportunities due to factors such as rapid industrial, manufacturing, and economic developments in these countries, fuelled by urbanization. As a result, there is an increasing adoption of software for different real-estate projects. Hence, such factors are positively impacting the market which, in turn, will drive the growth during the forecast period.

Significant Market Trend

A key factor shaping the market growth is the use of blockchain technology in software. There is a rapid advancement in technologies that can resolve the challenges associated with the openness of data and procedures in the market. The advent of blockchain technology enables transparency at all levels of activity in urban planning making it effective.

Moreover, the main advantage of using blockchain in urban planning is that there is a reduction in fraud and transaction duplication as every record is encrypted. Furthermore, the implementation of blockchain offers smooth and quick transactions by doing away with the necessity for a middleman. Hence, such factors are positively impacting the market trends which in turn will drive the market growth during the forecast period.

Major Market Challenge

The threat of open-source urban planning software is one of the key challenges hindering growth. There is a growing popularity for open-source software which poses a significant threat to the market. There is an increasing preference for open-source software as it is widely available on the Internet and can be downloaded easily.

Moreover, open-source software

The household incomes chart shows how many household fall in each of the income brackets specified by Statistics Canada.

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Civil Engineering Market Size 2024-2028

The civil engineering market size is forecast to increase by USD 2.57 billion at a CAGR of 3.9% between 2023 and 2028.

The market is experiencing significant growth, driven by the surge in construction activities in developing countries. This trend is expected to continue as infrastructure development remains a priority for many governments. Another key factor fueling market growth is the adoption of intelligent processing in civil engineering projects. This includes the use of technologies such as Building Information Modeling (BIM) and Geographic Information Systems (GIS) to improve project efficiency and accuracy. 
However, the market is also facing challenges, including the decline in construction activities in some regions due to economic downturns and natural disasters. Despite these challenges, the future of the market looks promising, with continued investment in infrastructure development and the ongoing integration of advanced technologies.

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The civil engineering services market encompasses a broad range of construction activities, including social infrastructure, residential, offices, educational institutes, luxury hotels, restaurants, transport buildings, online retail warehousing, and various types of infrastructure projects such as roads, bridges, railroads, airports, and ports. This market is driven by various factors, including population growth, urbanization, and the increasing demand for sustainable and energy-efficient structures. 
Digitalization plays a significant role In the civil engineering sector, with the adoption of digital civil engineering, smart grids, urban transportation systems, industrial automation, parking systems, and IT services. Additionally, there is a growing trend towards the development of zero-energy buildings, insulated buildings, double skin facades, PV panels, and e-permit systems.
Inspection technology and integrated 3D modeling are also becoming increasingly important In the civil engineering industry, enabling more accurate and efficient design and construction processes. The market is expected to continue growing, driven by the increasing demand for infrastructure development and the ongoing digital transformation of the industry.

How is this Civil Engineering Industry segmented and which is the largest segment?

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

Application

  Real estate
  Infrastructure
  Industrial


Geography

  APAC

    China
    India


  North America

    Canada
    US


  Europe

    Germany


  Middle East and Africa



  South America

By Application Insights

The real estate segment is estimated to witness significant growth during the forecast period. The real estate market encompasses the development, acquisition, and sale of property, land, and buildings. Global urbanization and infrastructure investment growth have significantly impacted this sector. In particular, the Asia Pacific region has seen rapid expansion in various sectors, such as commercial construction, with India leading the charge. Notably, international real estate development is projected to present opportunities for countries like India, as demonstrated by the October 2021 MoU between the Jammu and Kashmir administration and the Dubai government, focusing on industrial parks, IT towers, and super-specialty hospitals. Civil engineering services play a crucial role in real estate development, with a focus on social infrastructure, residential, construction activities, offices, educational institutes, hotels, restaurants, transport buildings, online retail warehousing, immigration, housing, and construction.

Innovations in green building products, energy efficiency, sustainable construction materials, such as cross-laminated timber, and digital technology are transforming the industry. Key areas of growth include infrastructure, oil and gas, energy and power, aviation, public spending, non-residential construction, healthcare centers, infrastructure projects, and digital civil engineering. Civil engineering firms provide essential services, including rail structures, tunnels, bridges, maintenance services, renovation activities, and energy-efficient products. The real estate segment also includes industrial real estate and housing development, with a shift towards flexible infrastructure, roads, railroads, airports, ports, single-family houses, and home remodeling. The industry is embracing advanced simulation tools, drone technology, and carbon emissions reduction initiatives, such as net-zero energy buildings, pre-f

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Hospice Market Size 2024-2028

The hospice market size is forecast to increase by USD 111.1 billion at a CAGR of 4.88% between 2023 and 2028.

The market is experiencing significant growth due to several key factors. The aging population In the US continues to increase, leading to a higher demand for these services. Additionally, there is a growing emphasis on person-centered care in hospice settings, which prioritizes the individual's comfort and quality of life. Home care solutions, medical equipment, digital health solutions, electronic health records, and collaborative care models are integral to hospice care. However, the high cost of healthcare remains a challenge for many individuals and families seeking hospice care. Despite these challenges, the market is expected to continue growing as more people recognize the benefits of hospice care in managing end-of-life care for their loved ones. The market analysis report provides a comprehensive examination of these trends and growth factors, offering valuable insights for stakeholders and industry participants.

What will be the Size of the Market During the Forecast Period?

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The market is experiencing significant growth due to the increasing prevalence of chronic diseases and an aging population. According to pipeline analysis, the number of patients receiving these services for life-threatening diseases such as cancer, lung disease, congestive heart failure, Parkinson's disease, and Alzheimer's disease is projected to rise. The Medicare hospice benefit plays a crucial role In the market's expansion, providing financial assistance to eligible patients. In-home hospice care is a popular trend, allowing patients to receive pain treatment and medical care In their familiar environment. Telemedicine is also gaining traction In the hospice industry, enabling remote consultations and monitoring for patients.
The Alzheimer's Association, National Hospice and Palliative Care Organization, Centers for Medicare and Medicaid Services, and other stakeholders continue to advocate for improved hospice care services and policies. Inpatient respite care and continuous home care are additional services that cater to the unique needs of hospice patients and their families.

How is this Hospice Industry segmented and which is the largest segment?

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

End-user

  Home settings
  Hospitals
  Specialty nursing homes
  Hospice care centers


Type

  Nursing services
  Medical supply services
  Physician services
  Other services


Geography

  North America

    Canada
    US


  Europe

    Germany
    UK


  APAC

    China


  Middle East and Africa



  South America

By End-user Insights

The home settings segment is estimated to witness significant growth during the forecast period.

Hospice care services have gained significant attention In the US healthcare landscape, particularly for patients dealing with chronic diseases and life-threatening conditions such as cancer, heart disease, lung disease, Parkinson's disease, Alzheimer's disease, and congestive heart failure. The aging population and increasing prevalence of incurable diseases have fueled the demand for hospice care. These offer various settings, including in-home care, inpatient care, respite care, and hospice inpatient facilities. Registered and licensed nurses, speech, physical, and occupational therapists, dieticians, case managers, nutritionists, audiologists, and personal caregivers deliver medical and social services In these settings.

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The home settings segment was valued at USD 175.66 billion in 2018 and showed a gradual increase during the forecast period.

Regional Analysis

North America is estimated to contribute 33% to the growth of the global market during the forecast period.

Technavio's analysts have elaborately explained the regional trends and drivers that shape the market during the forecast period.

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The North American market is driven by the significant presence of chronic diseases, an aging population, and extensive government support. In the US and Canada, there is a growing number of private and government-aided organizations offering these services. The rise in patients with life-threatening diseases, such as cancer, heart disease, lung disease, and dementia, will fuel market expansion. Hospice care expenses in the US are primarily covered by Medicare, Medicaid, and Veterans Affairs benefits. In-home hospice care, telehealth services, and collaborative car

Fifteen small and peripheral cities lost jobs between 1986 and 1996 in the education sector, but none more than 300. Toronto added almost 25 000 jobs in education during this period. Areas of slow growth, mostly rural or smaller centres, lost jobs in education as the birth rate declined, especially rural Quebec and across the northern periphery of the country. Nationally, the growth in the education sector more or less reflected the overall distribution of population growth across the country in, for example, Vancouver, Calgary, Edmonton, Toronto, Ottawa and Montréal. Nevertheless, many growing cities across the country (for example, Prince George, British Columbia and Fredericton, New Brunswick) also added jobs in these activities.