In 2024, the global air traffic passenger demand grew by **** percent compared to the previous year, when the passenger demand increased by **** percent. This figure was forecast to grow by eight percent in 2025.

A. SUMMARY San Francisco International Airport Report on Monthly Passenger Traffic Statistics by Airline. B. HOW THE DATASET IS CREATED Data is self-reported by airlines and is only available at a monthly level C. UPDATE PROCESS Data updated quarterly D. HOW TO USE THIS DATASET Airport data is seasonal in nature, therefore any comparative analyses should be done on a period-over-period basis (i.e. January 2010 vs. January 2009) as opposed to period-to-period (i.e. January 2010 vs. February 2010). It is also important to note that fact and attribute field relationships are not always 1-to-1. For example, Passenger Counts belonging to United Airlines will appear in multiple attribute fields and are additive, which provides flexibility for the user to derive categorical Passenger Counts as desired.

The number of flights performed globally by the airline industry has increased steadily since the early 2000s and reached **** million in 2019. However, due to the coronavirus pandemic, the number of flights dropped to **** million in 2020. The flight volume increased again in the following years and was forecasted to reach ** million in 2025.

The dataset contains the quarterly international traffic statistics in the regions in the form of city pairs in the category of passengers.

Bangladesh Air Traffic Movement: Passenger: Total data was reported at 1,585,904.000 Person in Dec 2023. This records an increase from the previous number of 1,417,178.000 Person for Nov 2023. Bangladesh Air Traffic Movement: Passenger: Total data is updated monthly, averaging 385,380.500 Person from Jan 1994 (Median) to Dec 2023, with 360 observations. The data reached an all-time high of 1,585,904.000 Person in Dec 2023 and a record low of 10,225.000 Person in Apr 2020. Bangladesh Air Traffic Movement: Passenger: Total data remains active status in CEIC and is reported by Bangladesh Bureau of Statistics. The data is categorized under Global Database’s Bangladesh – Table BD.TA003: Air Traffic Movement.

In 2024, the global airline industry's passenger air traffic revenue reached an estimated peak of *** billion U.S. dollars, representing a **** percent increase compared to the previous year.

Air Traffic Management Market Outlook

According to our latest research, the global Air Traffic Management (ATM) market size in 2024 stands at USD 10.9 billion, reflecting a robust industry driven by rising air travel demand and modernization initiatives. The market is expected to expand at a CAGR of 6.7% from 2025 to 2033, reaching a projected value of USD 18.7 billion by 2033. This sustained growth is fueled by increasing investments in aviation infrastructure, the adoption of advanced technologies, and the imperative to enhance airspace safety and efficiency as air traffic volumes surge worldwide.

One of the principal growth factors propelling the Air Traffic Management market is the exponential rise in global air passenger and cargo traffic. As economies rebound and international travel restrictions ease, airlines are rapidly expanding their fleets and routes, necessitating more sophisticated ATM systems. The need for seamless coordination among airlines, airports, and air navigation service providers has become paramount to accommodate the growing number of flights while maintaining safety standards. This dynamic has led to significant investments in both upgrading legacy systems and integrating next-generation technologies such as automation, artificial intelligence, and data analytics, all of which are essential for optimizing airspace utilization and minimizing delays.

Another significant driver is the global push toward airspace modernization, particularly through initiatives like the Single European Sky ATM Research (SESAR) in Europe and the NextGen program in the United States. These programs aim to transform traditional, fragmented airspace management into more integrated and efficient systems. The emphasis is on leveraging digital communication, satellite-based navigation, and real-time surveillance to provide more precise and flexible management of aircraft movements. This modernization not only improves operational efficiency but also reduces fuel consumption and emissions, aligning with broader environmental sustainability goals. As a result, governments and aviation authorities are prioritizing ATM upgrades, further stimulating market growth across all segments.

The increasing complexity of airspace, driven by the proliferation of unmanned aerial vehicles (UAVs) and the emergence of urban air mobility (UAM), is also reshaping the Air Traffic Management landscape. Traditional ATM systems are being adapted to accommodate new airspace users, requiring advanced automation, enhanced surveillance capabilities, and robust cybersecurity measures. The integration of UAVs and UAM vehicles into controlled airspace presents both challenges and opportunities for ATM solution providers, spurring innovation in communication protocols, data sharing, and airspace design. This evolving ecosystem is expected to create new revenue streams and accelerate the adoption of cutting-edge ATM technologies in the coming years.

From a regional perspective, North America and Europe continue to lead the Air Traffic Management market, driven by early adoption of advanced technologies and substantial government funding for modernization projects. However, the Asia Pacific region is witnessing the fastest growth, fueled by rapid expansion of airline networks, new airport construction, and increasing air passenger traffic. Countries such as China, India, and Southeast Asian nations are investing heavily in ATM infrastructure to support their burgeoning aviation industries. Meanwhile, the Middle East is emerging as a strategic hub for global air traffic, with major investments in airport and airspace management systems to handle increasing transit and cargo volumes. Latin America and Africa, while comparatively smaller markets, are gradually ramping up their ATM capabilities to support regional connectivity and safety requirements.

As the complexity of airspace management continues to grow, the role of Space Traffic Management Software is becoming increasingly significant. This software is designed to address the challenges posed by the increasing number of satellites, space debris, and other objects in orbit. By providing real-time tracking and collision avoidance capabilities, Space Traffic Management Software ensures the safe and efficient operation of space assets. This technology is crucial for

According to Cognitive Market Research, the global Air Traffic Management Market size was USD 7.5 billion in 2024 and will expand at a compound annual growth rate (CAGR) of 6.2 % from 2024 to 2031. Market Dynamics of Air Traffic Management Market

Key Drivers for Air Traffic Management Market

Soaring Air Passenger Traffic - Air passenger traffic is the total number of individuals who fly onboard commercial aircraft in a given period and is an important indicator for monitoring air travel demand and overall activity in the aviation industry. Air traffic control is vital to guaranteeing the safety, efficiency, and dependability of air passenger traffic and facilitating travel from departure to arrival, both inside and beyond borders. For instance, the International Air Transport Association (IATA), a Canada-based international airline trade association, reported in February 2023 that total traffic (measured in revenue passenger kilometres, or RPKs) climbed 64.4% in 2022 compared to 2021. Global traffic in 2022 was 68.5% of pre-pandemic (2019) levels. Total traffic in December 2022 climbed by 39.7% over December 2021, reaching 76.9% of the amount in December three years earlier. Regulatory initiatives

Key Restraints for Air Traffic Management Market

High initial investment Cybersecurity Risks Introduction of the Air Traffic Management Market

Air traffic management is the control of traffic in and around airports, airport terminals, and surrounding airspace. It offers integrated dynamic management of air traffic by utilizing air traffic services, airspace management, and air traffic flow management. These systems provide safe and effective air traffic control, including both airborne and ground-based activities. Furthermore, air traffic services are used to efficiently regulate the flow of aircraft in real-time, ensuring their safe operation. Air traffic services include air traffic control, alerting, and flight information. Ground-based controllers provide air traffic control services that direct aircraft on the ground and contribute to the prevention of aircraft collisions. Additionally, the global air traffic management market is growing due to increased air traffic worldwide, modernization of air traffic management infrastructure, and a rising requirement for improved air safety. However, potential cyber threats and the high cost of traffic management infrastructure are concerns impeding market expansion. Furthermore, technological developments and increased demand for air traffic solutions from emerging countries are likely to drive growth during the forecast period.

Global Air Traffic Management Market was valued at USD 8.81 Billion in 2024 and is anticipated to grow USD 13.78 billion by 2030 with a CAGR of 7.82% during forecast period.

Global Air Traffic Control market size is expected to reach $12.09 billion by 2029 at 6.3%, taking flight global tourism surge drives growth in the air traffic control market

The Global Air Traffic Management Market is projected to grow at a CAGR of 7.6% from 2025 to 2032, reaching a valuation of approximately USD 14.6 Billion in 2032.

Global Air Traffic Control Equipment Market is segmented by Application (Airports, Military, Air Navigation, Airlines, Air Traffic Management), , Type (Radar Systems, Communication Systems, Surveillance Systems, Navigation Systems, Automated Systems) and Geography (North America, LATAM, West Europe, Central & Eastern Europe, Northern Europe, Southern Europe, East Asia, Southeast Asia, South Asia, Central Asia, Oceania, MEA)

Air Traffic Management Market size was valued at USD 9,024.20 Million in 2024 and is projected to reach USD 16,986.54 Million by 2032, growing at a CAGR of 7.68% from 2026 to 2032.Global Air Traffic Management Market OverviewThe global air traffic management (ATM) market encompasses the technologies, systems, and services dedicated to organizing and controlling aircraft movements within controlled airspace and at airports. ATM solutions ensure the safe, efficient, and orderly flow of air traffic by integrating air traffic control (ATC), airspace management, and air traffic flow management into a cohesive network. These systems serve as the foundation of the aviation sector by optimizing flight routes, preventing accidents, minimizing delays, and facilitating airspace management amid increasing travel demands and complex operational situations.

San Francisco International Airport Report on Monthly Passenger Traffic Statistics by Airline. Airport data is seasonal in nature, therefore any comparative analyses should be done on a period-over-period basis (i.e. January 2010 vs. January 2009) as opposed to period-to-period (i.e. January 2010 vs. February 2010). It is also important to note that fact and attribute field relationships are not always 1-to-1. For example, Passenger Counts belonging to United Airlines will appear in multiple attribute fields and are additive, which provides flexibility for the user to derive categorical Passenger Counts as desired.

The Air Traffic Data International Mobility Indicators for the UK results from the investigation on air passenger data from the Sabre Corporation [1], accessed through a collaboration with the JRC Ispra. Starting from air passenger traffic volumes from each country of origin and to the final country of destination, two mobility indicators based on log flow ratios were provided: the Flow Log Ratio (FLR) and the Cumulative Flow Log Ratio (CFLR). These indicators, computed with monthly and yearly resolution, allow to eliminate short term trips observing the general pattern of longer-term mobility. The Flow Log Ratio (FLR) is defined as the logarithm of the ratio between the number of incoming individuals in a given country (e.g., entering the UK) and the number of outgoing individuals in the same observed country (e.g., leaving the UK). The indicators are provided for the UK versus the rest of the European Union. Further, we provide regional indicators using the division of EU member states into regions proposed by the EuroVoc vocabulary [2]: Northern (Finland, Denmark, Sweden, Estonia, Latvia, Lithuania), Southern (Greece, Italy, Malta, Portugal, Cyprus, Spain), Western (France, Germany, Ireland, Luxembourg, Netherlands, Austria, Belgium), Central and Eastern (Hungary, Poland, Romania, Bulgaria, Croatia, Slovakia, Czechia, Slovenia). Europe-level indicators are also included. The entire Air Traffic Data International Mobility Indicators for the UK includes monthly and yearly Flow Log Ratio and Cumulative Flow Log Ratio indicators calculated at different spatial and time resolutions. Further, the monthly set also provides the components obtained by applying Seasonal-Trend decomposition (TSD) [3] to FLR regional values. These allow for separating seasonal from overall patterns. The Air Traffic Data International Mobility Indicators for the UK include FLRs and CFLRs values calculated for the United Kingdom versus: the 27 countries in the European Union, the four regions of the European Union, and the entire European Union. Monthly data are provided from February 2011 to October 2021, while yearly data covers 2011-2021. Moreover, the monthly dataset includes components, i.e., trend, seasonal, and residual signals, obtained by decomposing the regional EU FLRs with Statsmodels [4] Python library (using an additive model with 12 components). In publishing the dataset, we followed the DEU guidelines for publishing high-quality data. To ensure interoperability and facilitate automatic processing by machines, we used the CSV format with US-ASCII encoding. All country names follow the ISO2 standard. The European subregions follow the EuroVoc vocabulary, dates are standardised, time series are complete. The CSV files are accompanied by a README that defines all variables included in the data and cross-references publications. References: [1] Sabre. Market intelligence, global demand data. https://es.sonicurlprotection-fra.com/click?PV=2&MSGID=202302101437200109948&URLID=11&ESV=10.0.19.7431&IV=259BC11764855306985B70AF21AF9795&TT=1676039840964&ESN=Vs8xERNXlu7bOs3Tyb9f%2Fa8tNspLAa%2FGwagIu4vHdcQ%3D&KV=1536961729280&B64_ENCODED_URL=aHR0cHM6Ly93d3cuc2FicmUuY29tL3Byb2R1Y3RzL21hcmtldC1pbnRlbGxpZ2VuY2UvLA&HK=D2BCC95C29FB56BEC2A395CC3D9C17C53D482CA86C9C38AA591FB4CEC3FD597F 2021. Accessed: 2021-11-15. [2] https://es.sonicurlprotection-fra.com/click?PV=2&MSGID=202302101437200109948&URLID=10&ESV=10.0.19.7431&IV=2934525D891132A3AEF7FAE3284ABBF5&TT=1676039840964&ESN=1y%2BYp5gdrdyZM9uJx0B%2FPBEP1rDDsKvDHe7LgSX0cS8%3D&KV=1536961729280&B64_ENCODED_URL=aHR0cHM6Ly9ldXItbGV4LmV1cm9wYS5ldS9icm93c2UvZXVyb3ZvYy5odG1sP3BhcmFtcz03Miw3MjA2&HK=8C84248906662B84FF5949BF9C969AA3FE97AB3970282A47E9BDFA1EB8E0B1F6 [3] Cleveland, R.B., Cleveland, W.S., McRae, J.E. and Terpenning, I., 1990. STL: A seasonal-trend decomposition. J. Off. Stat, 6(1), pp.3-73. [4] McKinney, W., Perktold, J., & Seabold, S. (2011). Time series analysis in python with statsmodels. Jarrodmillman. Com, 96-102. (2023-02-20)

China Air: Passenger Traffic: Year to Date: International data was reported at 18.925 Person mn in Mar 2025. This records an increase from the previous number of 12.840 Person mn for Feb 2025. China Air: Passenger Traffic: Year to Date: International data is updated monthly, averaging 11.096 Person mn from Feb 2006 (Median) to Mar 2025, with 230 observations. The data reached an all-time high of 74.254 Person mn in Dec 2019 and a record low of 0.092 Person mn in Jan 2022. China Air: Passenger Traffic: Year to Date: International data remains active status in CEIC and is reported by Civil Aviation Administration of China. The data is categorized under China Premium Database’s Transportation and Storage Sector – Table CN.TI: Air: Passenger Traffic.

The data shows the quarterly carrier type-wise international traffic statistics for different airlines in both categories - freight and passengers.

Air Traffic Control (ATC) Market size was worth USD 9.0 Billion in 2022 and is estimated to grab USD 13.5 Billion by 2030, reporting a competitive CAGR of 4.2 % from 2024 to 2030.The rising commercial aviation activities and increasing passenger traveling worldwide propel the market's growth. The rising dominance of the Internet of Things and machine learning in air services is expected to increase the scope of the Global Air Traffic Control (ATC) Market. Airport authorities of various countries are advancing these technologies in Air Traffic Control (ATC) units.

In 2024, around **** percent of airline passenger traffic was operated by airline companies in the Asia-Pacific region. Meanwhile, Europe accounted for the second largest passenger traffic share, with **** percent.

The forecast for the global Air Traffic Management market predicts substantial growth, with market size projected to soar to USD 21.46 Billion by 2033, a significant increase from the USD 10.14 Billion recorded in 2024. This expansion reflects an impressive compound annual growth rate (CAGR) of 8.69% anticipated between 2025 and 2033.

The Global Air Traffic Management market size to cross USD 21.