The global number of internet users in was forecast to continuously increase between 2024 and 2029 by in total 1.3 billion users (+23.66 percent). After the fifteenth consecutive increasing year, the number of users is estimated to reach 7 billion users and therefore a new peak in 2029. Notably, the number of internet users of was continuously increasing over the past years.Depicted is the estimated number of individuals in the country or region at hand, that use the internet. As the datasource clarifies, connection quality and usage frequency are distinct aspects, not taken into account here.The shown data are an excerpt of Statista's Key Market Indicators (KMI). The KMI are a collection of primary and secondary indicators on the macro-economic, demographic and technological environment in up to 150 countries and regions worldwide. All indicators are sourced from international and national statistical offices, trade associations and the trade press and they are processed to generate comparable data sets (see supplementary notes under details for more information).Find more key insights for the number of internet users in countries like the Americas and Asia.

The total amount of data created, captured, copied, and consumed globally is forecast to increase rapidly, reaching *** zettabytes in 2024. Over the next five years up to 2028, global data creation is projected to grow to more than *** zettabytes. In 2020, the amount of data created and replicated reached a new high. The growth was higher than previously expected, caused by the increased demand due to the COVID-19 pandemic, as more people worked and learned from home and used home entertainment options more often. Storage capacity also growing Only a small percentage of this newly created data is kept though, as just * percent of the data produced and consumed in 2020 was saved and retained into 2021. In line with the strong growth of the data volume, the installed base of storage capacity is forecast to increase, growing at a compound annual growth rate of **** percent over the forecast period from 2020 to 2025. In 2020, the installed base of storage capacity reached *** zettabytes.

When asked about "Attitudes towards the internet", most Japanese respondents pick "I'm concerned that my data is being misused on the internet" as an answer. 35 percent did so in our online survey in 2025. Looking to gain valuable insights about users of internet providers worldwide? Check out our reports on consumers who use internet providers. These reports give readers a thorough picture of these customers, including their identities, preferences, opinions, and methods of communication.

When asked about "Attitudes towards the internet", most Mexican respondents pick "It is important to me to have mobile internet access in any place" as an answer. 56 percent did so in our online survey in 2025. Looking to gain valuable insights about users of internet providers worldwide? Check out our reports on consumers who use internet providers. These reports give readers a thorough picture of these customers, including their identities, preferences, opinions, and methods of communication.

When asked about "Attitudes towards the internet", most Chinese respondents pick "It is important to me to have mobile internet access in any place" as an answer. 48 percent did so in our online survey in 2025. Looking to gain valuable insights about users of internet providers worldwide? Check out our reports on consumers who use internet providers. These reports give readers a thorough picture of these customers, including their identities, preferences, opinions, and methods of communication.

When asked about "Attitudes towards the internet", most Australian respondents pick "It is important to me to have mobile internet access in any place" as an answer. 55 percent did so in our online survey in 2025. Looking to gain valuable insights about users of internet providers worldwide? Check out our reports on consumers who use internet providers. These reports give readers a thorough picture of these customers, including their identities, preferences, opinions, and methods of communication.

Carrier Ethernet Services Market Outlook

The Carrier Ethernet Services market size is expected to witness robust growth, with global market numbers anticipated to reach USD 54.3 billion by 2023 and a forecasted USD 112.6 billion by 2032, with a CAGR of 8.9% during the period. The expansion can be attributed to the increasing demand for high-speed internet services, rising data traffic, and the proliferation of cloud services. Additionally, technological advancements in networking solutions and the growing trend towards digital transformation are major growth factors driving this market.

One of the primary growth factors of the Carrier Ethernet Services market is the increasing demand for high-speed and reliable internet services. As businesses and consumers alike rely more heavily on the internet for daily activities, the need for scalable and efficient network solutions like Carrier Ethernet Services becomes essential. This demand is further fueled by the expansion of broadband services, particularly in developing regions where internet penetration is still on the rise. Furthermore, the ongoing transition from legacy networks to more modern and efficient Ethernet-based solutions is driving the adoption of Carrier Ethernet Services across various sectors.

Another significant growth factor is the exponential increase in data traffic, driven by the proliferation of smart devices, the Internet of Things (IoT), and the surge in video streaming services. As data consumption continues to grow at an unprecedented rate, network infrastructure must evolve to handle the increased load. Carrier Ethernet Services provide the necessary bandwidth, scalability, and reliability to support this growth, making them an attractive option for service providers and enterprises. Additionally, the rise of cloud computing and data center connectivity further emphasizes the need for robust and efficient networking solutions.

The trend towards digital transformation across various industries is also a major driver of the Carrier Ethernet Services market. Organizations are increasingly adopting digital technologies to improve operational efficiency, enhance customer experiences, and gain a competitive edge. This digital shift requires a strong and reliable network infrastructure that can support advanced applications and services. Carrier Ethernet Services offer the necessary performance, flexibility, and scalability to meet these demands, making them a critical component of modern business networks. Furthermore, advancements in networking technologies, such as software-defined networking (SDN) and network function virtualization (NFV), are enhancing the capabilities of Carrier Ethernet Services, driving further adoption and growth.

Mpls Circuit Services play a pivotal role in enhancing the capabilities of Carrier Ethernet Services. These services provide a robust framework for managing network traffic efficiently, ensuring that data is transmitted with minimal latency and high reliability. As businesses increasingly demand seamless connectivity and faster data transfer rates, Mpls Circuit Services offer a scalable solution that can adapt to varying network conditions. By leveraging these services, organizations can optimize their network performance, reduce operational costs, and enhance overall user experience. This integration is particularly beneficial for enterprises that require consistent and high-speed connectivity to support critical applications and services, further driving the adoption of Carrier Ethernet Services.

From a regional perspective, the Carrier Ethernet Services market is witnessing significant growth across various regions. North America is a leading market, driven by the high adoption of advanced networking solutions and the presence of major service providers. The Asia Pacific region is also experiencing rapid growth, fueled by increasing internet penetration, expanding mobile networks, and rising investments in network infrastructure. Europe is another key market, with significant demand for high-speed internet services and advanced networking solutions across various industries. Additionally, regions such as Latin America and the Middle East & Africa are emerging markets, with growing investments in network infrastructure and increasing demand for reliable and scalable internet services.

Service Type Analysis

The Carrier Ethernet Services market can be segmented by service type into E-Line, E-LAN, E-Tree, E-Access, and E-Transit. E-Line, or

Distributes NIST estimate of official U.S. time over the Internet in real time, using Network Time Protocol (NTP) and other time data formats to automatically synchronize clocks in computers and network devices to official U.S. time as realized by NIST several billions of times per day. This official U.S. time is the NIST estimate of Coordinated Universal Time (UTC), and called UTC(NIST). The accuracy of UTC(NIST) as distributed through the Internet Time Service (ITS) is on the order of 0.001 seconds (one millisecond), although accuracy can vary depending on network conditions and other parameters. Note that unlike most traditional datasets, time is intrinsically a transient, ever-changing quantity. As soon as UTC(NIST) is transmitted to a client, that particular value of UTC(NIST) no longer reflects the current time, which is constantly changing. There is thus no static storage of any time data, apart from internal diagnostic information not released to the public which ensures that UTC(NIST) as disseminated through the Internet Time Service (ITS) is commensurate with the official UTC(NIST) realization within the uncertainties of the system. The vast majority of UTC(NIST) information distributed through ITS is provided freely, anonymously and automatically to the public. Any IP address can request UTC(NIST) through the ITS and the information is automatically and anonymously provided at no cost to the user. Full documentation of the ITS including all the source code is available to the public through the web site http://www.nist.gov/pml/div688/.NIST provides an authenticated version of ITS to a limited number of users (approximately 500 users near the end of calendar year 2015) who for various reasons want to ensure they are receiving UTC(NIST) without spoofing or interference with the information. This service uses public key encryption for the set of registered users to provide authenticated UTC(NIST).

Fiber Optic Preform Market Outlook

The global Fiber Optic Preform Market size was valued at USD 7.53 billion in 2023 and is projected to reach USD 13.26 billion by 2032, growing at a CAGR of 6.5% during the forecast period. The market growth is driven by the escalating demand for high-speed internet and data services across various sectors. Fiber optic technology is becoming integral for high-speed data transmission, which significantly boosts the demand for fiber optic preforms.

One of the primary growth factors for the fiber optic preform market is the surge in internet usage and the subsequent demand for higher bandwidth. As more people and businesses rely on internet services for their daily operations, the need for efficient and high-speed data transmission solutions has become crucial. Fiber optic cables, which are made from preforms, offer superior performance in terms of speed and reliability compared to traditional metal cables. This rising demand for advanced internet services is expected to propel market growth during the forecast period.

Another significant growth factor is the increasing investments in telecommunications infrastructure by various governments and private organizations. Countries are investing heavily in upgrading their telecommunications networks to provide better connectivity, especially in rural and underserved areas. These investments often involve the deployment of fiber optic cables, thereby increasing the demand for fiber optic preforms. Additionally, the advent of 5G technology is anticipated to further drive the market, as it requires extensive use of fiber optic cables for its deployment.

The growing adoption of cloud computing and the expansion of data centers globally is also contributing to the market’s growth. Data centers require high-speed and reliable internet connections to handle vast amounts of data efficiently. Fiber optic preforms are essential components in the production of the fiber optic cables used in these data centers. As more organizations move towards cloud-based solutions and the number of data centers increases, the demand for fiber optic preforms is expected to rise significantly.

Regionally, Asia Pacific holds a substantial share of the fiber optic preform market and is expected to continue its dominance during the forecast period. The region's growth can be attributed to rapid industrialization, urbanization, and the proliferation of the telecommunications sector. Countries like China, India, and Japan are heavily investing in the expansion of their telecommunications infrastructure, which is driving the demand for fiber optic preforms. Furthermore, the presence of several key manufacturers in the region enhances its market position.

Product Type Analysis

In the fiber optic preform market, product types play a crucial role in determining the applications and effectiveness of fiber optic cables. The primary product types are Single-Mode Fiber Preform and Multi-Mode Fiber Preform. Single-Mode Fiber Preform is extensively used in scenarios where long-distance data transmission is required. These preforms allow for data to be transmitted over longer distances without significant loss or degradation, making them ideal for telecommunications and long-haul network infrastructures. The demand for Single-Mode Fiber Preform is expected to rise with the increasing deployment of 5G networks and large-scale data centers.

Multi-Mode Fiber Preform, on the other hand, is more suitable for short-distance data transmission. These preforms are often used in local area networks (LANs), data centers, and specialty applications within buildings. Multi-Mode Fiber Preform supports high bandwidth over relatively shorter distances, making them ideal for network environments where high-speed data transfer is required across shorter spans. The rising trend of edge computing and the need for robust internal network setups in corporate environments are driving the demand for Multi-Mode Fiber Preforms.

The choice between Single-Mode and Multi-Mode Fiber Preforms often depends on the specific requirements of the network infrastructure. While Single-Mode Fiber Preforms dominate in long-haul and high-capacity networks, Multi-Mode Fiber Preforms find extensive use in environments requiring rapid data exchanges over shorter distances. Understanding the differences between these two types is crucial for stakeholders to make informed decisions regarding their fiber optic investments.

Additionally, advancements in technology have led to the developme

FRP Fiber Optic Cable Market Outlook

The FRP (Fiber Reinforced Polymer) fiber optic cable market size is projected to grow from USD 2.5 billion in 2023 to USD 4.8 billion by 2032, exhibiting a robust CAGR of 7.2% during the forecast period. This growth is driven by the increasing demand for high-speed internet and data transmission capabilities across various industries, along with advancements in fiber optic technology. The expanding applications of fiber optic cables in sectors such as telecommunications, data centers, and military operations are significant growth factors fueling the market expansion.

The surge in global internet usage and the proliferation of connected devices are key drivers of the FRP fiber optic cable market. As more businesses and consumers rely on the internet for daily activities, the need for efficient and high-capacity data transmission has become paramount. Fiber optic cables, known for their ability to transmit data at high speeds over long distances with minimal signal loss, are increasingly being adopted to meet this demand. Additionally, the rollout of 5G networks worldwide and the consequent need for robust and reliable backhaul infrastructure is further propelling the market growth.

Technological advancements in fiber optic cable manufacturing are also contributing to the market expansion. Innovations in materials and production techniques have led to the development of more durable and high-performance cables. FRP fiber optic cables, in particular, offer superior strength, flexibility, and resistance to environmental factors compared to traditional materials. These attributes make them ideal for deployment in harsh environments, such as undersea and industrial applications, thereby broadening their market potential. Furthermore, the decreasing cost of fiber optic technology over time has made it more accessible to a wider range of industries and applications.

The increasing demand for efficient data management and storage solutions is another significant growth driver. Data centers, which form the backbone of the digital economy, are rapidly expanding to accommodate the surge in data generated by various applications, from cloud computing to artificial intelligence. Fiber optic cables, with their ability to handle high bandwidth and low latency requirements, are becoming the preferred choice for interconnecting data center facilities. Additionally, government initiatives aimed at improving digital infrastructure, particularly in emerging economies, are expected to create lucrative opportunities for market players.

Optic Fibre Cable technology has revolutionized the way data is transmitted across vast distances, offering unparalleled speed and reliability. Unlike traditional copper cables, optic fibre cables use light to transmit data, which significantly reduces signal loss and interference. This makes them ideal for applications that require high bandwidth and low latency, such as streaming, online gaming, and cloud computing. As industries continue to digitize and demand faster data transmission, the role of optic fibre cables becomes increasingly vital. Their deployment in urban and rural areas alike is crucial for bridging the digital divide and ensuring equitable access to high-speed internet services.

Regionally, Asia Pacific is poised to witness the highest growth in the FRP fiber optic cable market, driven by rapid urbanization, technological advancements, and substantial investments in telecom infrastructure. Countries like China, India, and Japan are leading the charge with significant deployments of fiber optic networks to support their burgeoning digital economies. North America and Europe are also substantial markets, with ongoing upgrades to existing telecom and data center infrastructures. The Middle East & Africa and Latin America regions, though currently smaller in market size, present significant growth opportunities due to increasing internet penetration and infrastructure development initiatives.

Type Analysis

In the FRP fiber optic cable market, the type segment is primarily divided into Single-Mode and Multi-Mode cables. Single-Mode cables, known for their ability to carry signals over long distances with minimal signal loss, are predominantly used in applications requiring high bandwidth and long-range transmission. These cables are instrumental in backbone networks, long-haul communication, and undersea cable systems. The growing demand for high-speed internet and the prolifera

The size of the Wi-Fi market was valued at USD XXX Million in 2023 and is projected to reach USD XXX Million by 2032, with an expected CAGR of 14.19% during the forecast period.Wi-Fi is the abbreviation for Wireless Fidelity; it is that technology allowing electronic devices to connect with the internet or communicate with other devices using wireless transmission. Data will be transferred over short distances using radio waves, letting users get access to the internet and stream media transfer files wirelessly without cable.Therefore, Wi-Fi is one of the fundamental components of our everyday lives due to providing unbreakable connections in both offices, homes, and public domains. Internet browsing, video streaming, online gaming, work, and control over home smart appliances are a few services facilitated by this mode. It is, however driven by the high-speed access internet market requirement; also due to increasing use of mobile devices, rising demand of IoTs, which increases the rate of smart objects. Recent developments include: November 2022 : Zyxel Networks, a secure, AI- and cloud-powered business and home networking solution provider, announced bundling its Connect and Protect security service with select Zyxel WiFi access points. It protects small business WiFi networks from cybersecurity hazards and optimizes WiFi connectivity for the business and its patrons to improve connectivity and customer satisfaction., November 2022: TP-Link announced the launch of WiFi 7 devices for consumers, enterprises, and internet service providers (ISPs) to strengthen its position in the WLAN market further. These new WiFi 7 devices add to TP-Link's popular series of consumer routers, gaming routers, mesh systems, and enterprise access points (APs).. Key drivers for this market are: Rise in Demand for Smart Consumer Electronics Devices in the Major Markets, Ongoing Smart City Projects Focused on Deployment of Outdoor Wi-Fi in Emerging Regions; Ongoing Technological Advancements in Wi-Fi Technology (Wi-Fi 6 Standard Implementation, Etc.). Potential restraints include: Skilled Workforce Availability and Security Concerns. Notable trends are: Indoor is Expected to Account For Significant Market Share.

Optical Fiber Cable Market Outlook

The global optical fiber cable market size was valued at approximately USD 8.1 billion in 2023 and is projected to reach around USD 14.3 billion by 2032, growing at a Compound Annual Growth Rate (CAGR) of 6.5% from 2024 to 2032. The growth of this market is primarily driven by the increasing demand for high-speed internet and data services across various sectors.

One of the primary growth factors for the optical fiber cable market is the rising demand for high-speed internet services. As more businesses and consumers rely on the internet for their daily operations, the need for faster and more reliable data transmission has become crucial. Optical fiber cables, with their superior bandwidth capabilities and minimal signal loss, are ideally suited to meet these demands. Additionally, the proliferation of cloud-based services and the need for efficient data centers further fuel the market growth.

Another significant driver is the ongoing advancements in telecommunications infrastructure. With the deployment of 5G networks, there is an escalating demand for optical fiber cables, as these networks require substantial bandwidth and low latency. The development of smart cities and the Internet of Things (IoT) is also contributing to the increased adoption of optical fiber cables. These cables are essential for ensuring seamless connectivity and data transfer between various devices and systems.

The growing emphasis on sustainable and energy-efficient solutions is also playing a pivotal role in the market's expansion. Optical fiber cables are known for their energy efficiency and lower carbon footprint compared to traditional copper cables. As environmental concerns continue to rise, industries are increasingly adopting optical fiber cables to reduce energy consumption and minimize their environmental impact. This trend is particularly evident in data centers and telecommunications sectors, where energy efficiency is a critical consideration.

The concept of a Fibre Optic Cable Ring is gaining traction as a strategic approach to enhance network reliability and efficiency. By forming a ring topology, these cables create a redundant path for data transmission, ensuring continuous connectivity even if one segment of the network fails. This architecture is particularly beneficial for urban areas and smart cities, where uninterrupted data flow is critical for various applications, from traffic management to emergency services. The implementation of Fibre Optic Cable Rings can significantly reduce downtime and maintenance costs, making it an attractive option for telecom operators and city planners aiming for robust and resilient network infrastructures.

Regionally, the Asia Pacific market is witnessing significant growth, owing to rapid urbanization and industrialization. Countries like China, India, and Japan are investing heavily in upgrading their telecommunications infrastructure, which is driving the demand for optical fiber cables. North America and Europe are also experiencing steady growth, supported by the widespread adoption of advanced technologies and the presence of key market players. Meanwhile, the Middle East & Africa and Latin America regions are gradually emerging as potential markets, driven by increasing internet penetration and infrastructure development initiatives.

Type Analysis

The optical fiber cable market can be segmented by type into single-mode and multi-mode cables. Single-mode fibers are designed to carry light directly down the fiber, allowing for long-distance communication with minimal signal loss. This type of fiber is widely used in applications such as telecommunications and long-haul networks. The increasing demand for high-speed internet and the deployment of 5G networks are propelling the growth of single-mode fibers. Additionally, the development of smart cities is further boosting the demand for single-mode cables due to their capability to support large-scale data transmission.

Multi-mode fibers, on the other hand, are designed to carry multiple light modes simultaneously, making them suitable for shorter distances and applications such as local area networks (LANs) and data centers. These fibers are preferred for their cost-effectiveness and ease of installation. The rising demand for data centers, driven by the exponential growth of data generation and storage, is fueling the demand for multi-mode fibers. Moreover, the increasin

Powerline Extender Market Outlook

The global powerline extender market size is projected to grow from USD 3.1 billion in 2023 to USD 6.4 billion by 2032, reflecting a compound annual growth rate (CAGR) of 8.15%. This substantial growth is driven by the increasing need for seamless internet connectivity across various environments, including residential, commercial, and industrial spaces. With the growing reliance on smart devices and IoT technologies, the demand for robust and efficient powerline extenders is expected to surge, facilitating uninterrupted connectivity and enhanced network performance.

One major growth factor in this market is the rising adoption of smart home technologies. As more consumers integrate smart devices into their homes, the need for reliable and extensive internet coverage becomes crucial. Powerline extenders, which utilize existing electrical wiring to expand network reach, offer an effective solution to connectivity challenges in large houses or buildings with thick walls. This trend is particularly prominent in urban areas where modern, tech-savvy residents prioritize seamless connectivity for their smart gadgets, home automation systems, and streaming services.

The expanding commercial sector also plays a vital role in propelling the powerline extender market. Businesses increasingly depend on high-speed internet for daily operations, from communication and collaboration to data transfer and cloud computing. Powerline extenders provide a cost-effective and efficient method to ensure reliable internet access in large office spaces, retail outlets, and hospitality venues. With the ongoing digital transformation across industries, the demand for solutions that enhance network performance and coverage is anticipated to rise significantly, thereby driving market growth.

Additionally, the industrial segment's growth contributes to the increased demand for powerline extenders. Industrial environments often face challenges in network connectivity due to complex layouts, interference, and expansive areas. Powerline technology offers a robust solution by leveraging existing electrical infrastructure to establish stable and extensive network coverage. This is particularly beneficial for applications such as remote monitoring, automation, and control systems in manufacturing plants, warehouses, and other industrial facilities. As industries increasingly adopt IoT and smart manufacturing technologies, the requirement for reliable network solutions like powerline extenders is expected to grow.

From a regional perspective, North America currently dominates the powerline extender market, driven by the high penetration of broadband services and the widespread adoption of smart home technologies. However, the Asia Pacific region is expected to witness the highest growth rate during the forecast period. The rapid urbanization, increasing internet penetration, and growing middle-class population in countries such as China, India, and Japan are key factors contributing to the market's expansion in this region. Moreover, government initiatives aimed at promoting digital infrastructure and smart city projects are further boosting the demand for powerline extenders in Asia Pacific.

Product Type Analysis

The powerline extender market is segmented into Wi-Fi powerline extenders and wired powerline extenders. Wi-Fi powerline extenders are gaining significant traction owing to their ability to offer wireless connectivity solutions by leveraging existing powerlines. These devices are particularly popular in residential settings, where they provide seamless internet access without the need for additional wiring. As consumers increasingly embrace smart home technologies and wireless devices, the demand for Wi-Fi powerline extenders is expected to surge, driving this segment's growth.

Wired powerline extenders, on the other hand, provide a reliable and stable internet connection through a direct wired connection between the powerline adapter and the end device. These extenders are widely used in commercial and industrial applications where stable and high-speed connectivity is crucial. The wired powerline extender segment is projected to maintain steady growth due to the increasing deployment of network-intensive applications in offices, retail spaces, and industrial environments. The robust performance and reliability of wired connections make them a preferred choice for enterprises seeking unin

Plenum Fiber Optic Cables Market Outlook

In 2023, the global plenum fiber optic cables market size was valued at approximately $3.5 billion and is projected to reach around $7.8 billion by 2032, expanding at a CAGR of 9.2% during the forecast period. The market growth is driven by increasing demand for high-speed data transmission and growing adoption of fiber optic technology across various industries. A significant boost in data center construction, along with the rising need for secure and efficient communication networks, is also contributing to the market expansion.

One key growth factor for the plenum fiber optic cables market is the escalating demand for high-speed internet and data transfer capabilities. As industries digitize and the Internet of Things (IoT) becomes more integrated into daily operations, the need for robust, high-capacity communication infrastructure is paramount. Fiber optic cables, known for their superior bandwidth and speed, are the preferred choice for meeting these demands. Furthermore, the rising popularity of cloud computing and streaming services necessitates the expansion of data centers, further driving the demand for plenum fiber optic cables.

Another crucial factor propelling the market is the heightened emphasis on safety and fire-resistant materials in building infrastructure. Plenum-rated cables are designed to restrict flame propagation and emit low smoke, making them ideal for installation in plenum spaces, such as air ducts and ceilings, where fire safety is a critical concern. This requirement is particularly stringent in commercial buildings, healthcare facilities, and educational institutions, where the safety of occupants is a top priority. Consequently, the adoption of plenum fiber optic cables in these settings is on the rise.

Technological advancements and continuous innovation in fiber optic cable design also play a significant role in market growth. Improved manufacturing techniques and materials have enhanced the performance and durability of these cables, making them more reliable and cost-effective. Innovations such as bend-insensitive fibers and high-density cable solutions cater to the increasingly complex and space-constrained installations seen in modern data centers and telecommunications networks. These advancements are expected to fuel further market growth.

On the regional front, North America is poised to maintain a dominant position in the plenum fiber optic cables market, owing to the region’s early adoption of advanced technologies and significant investments in telecommunications infrastructure. However, the Asia-Pacific region is anticipated to exhibit the highest growth rate, driven by rapid urbanization, the expansion of IT and telecom sectors, and government initiatives to boost digital economies. Europe, Latin America, and the Middle East & Africa also present lucrative opportunities due to ongoing infrastructural developments and increasing awareness about the benefits of fiber optic technology.

Type Analysis

In the type segment, plenum fiber optic cables are categorized into single-mode and multi-mode cables. Single-mode plenum fiber optic cables are extensively used for long-distance communication purposes. They have a smaller core size, allowing only one mode of light to propagate, which minimizes attenuation and maintains signal quality over long distances. Their application is critical in telecommunications and long-haul networks where signal integrity and minimal loss are essential. The growing need for high-speed internet and the expansion of global communication networks are driving the demand for single-mode plenum fiber optic cables.

On the other hand, multi-mode plenum fiber optic cables are designed for shorter distance data transmission. These cables have a larger core size, permitting multiple modes of light to travel simultaneously, which makes them suitable for applications within data centers, local area networks (LANs), and storage area networks (SANs). The increasing number of data centers and the continuous growth in enterprise networking solutions are significantly contributing to the demand for multi-mode plenum fiber optic cables. Moreover, their relatively lower cost compared to single-mode cables makes them an attractive option for many commercial applications.

The choice between single-mode and multi-mode plenum fiber optic cables often depends on the specific requirements of the application, including distance, data rate, and budget constraints. As data transmission needs continue to grow, the demand for both types

Our cross-device graph identifies customers across the range of internet-connected devices that they use through their encrypted MAIDs and IP addresses. This aggregated data feed is delivered as a daily feed via S2S transfer.

Cross Device Data Reach

Our dataset encompasses a wide array of attributes, including anonymous IDs and IP addresses, capturing the extensive reach of our cross-device data.

• Record Count: 3 Billion
• Capturing Frequency: Once per Event
• Delivering Frequency: Once per Day
• Updated: Daily
• Historical Data: Past One Year

Data Export Methodology

We dynamically collect data to provide the most up-to-date insights, delivering information at intervals best suited to your needs (daily, weekly, or monthly).

Use Cases

Our comprehensive dataset supports consumer analytics, cross-device analysis, sales forecasting, and targeted advertising, offering valuable insights to enhance marketing strategies and reach.

The population share with mobile internet access in North America was forecast to increase between 2024 and 2029 by in total 2.9 percentage points. This overall increase does not happen continuously, notably not in 2028 and 2029. The mobile internet penetration is estimated to amount to 84.21 percent in 2029. Notably, the population share with mobile internet access of was continuously increasing over the past years.The penetration rate refers to the share of the total population having access to the internet via a mobile broadband connection.The shown data are an excerpt of Statista's Key Market Indicators (KMI). The KMI are a collection of primary and secondary indicators on the macro-economic, demographic and technological environment in up to 150 countries and regions worldwide. All indicators are sourced from international and national statistical offices, trade associations and the trade press and they are processed to generate comparable data sets (see supplementary notes under details for more information).Find more key insights for the population share with mobile internet access in countries like Caribbean and Europe.

Bulk Copper Cable Market Outlook

The global bulk copper cable market size was valued at $XX billion in 2023 and is projected to reach $XX billion by 2032, exhibiting a CAGR of XX%. The growth of this market can be attributed to the escalating demand for high-speed internet and data transfer capabilities, coupled with the expansion of data centers worldwide. Bulk copper cables are essential components in these infrastructures due to their superior conductivity and reliability, which make them indispensable for various applications ranging from telecommunications to industrial automation.

One of the primary growth factors for the bulk copper cable market is the increasing proliferation of the Internet of Things (IoT). With more devices being connected to the internet every day, there is a pressing need for robust and reliable connectivity solutions. Bulk copper cables, known for their durability and efficiency, are increasingly being employed to support these growing networks. Moreover, advancements in technology have enabled the development of higher-category cables like Cat7 and Cat8, which offer enhanced speed and bandwidth capabilities, further driving market growth.

Another significant contributor to market growth is the expanding telecommunications industry. As telecommunication companies continue to roll out 5G networks, the demand for bulk copper cables is expected to soar. These cables are vital for establishing the backbone infrastructure necessary for 5G technology, which promises faster data speeds and more reliable connections. Additionally, the rising number of data centers globally is fueling demand. Data centers require extensive cabling solutions to manage vast amounts of data, making bulk copper cables a critical component of their infrastructure.

The industrial sector is also witnessing increased utilization of bulk copper cables. Industries such as manufacturing and energy are increasingly adopting automation and smart technologies that require reliable data transmission. Bulk copper cables provide the necessary infrastructure to support these advancements, thereby driving market growth. Furthermore, government initiatives aimed at improving digital infrastructure in various countries are expected to provide lucrative opportunities for market expansion. These initiatives often involve large-scale installations of networking and communication systems, which in turn boost the demand for bulk copper cables.

In recent years, the development and integration of Hybrid Copper Fiber Cable technology have emerged as a significant trend in the telecommunications and data transmission sectors. This innovative solution combines the strengths of both copper and fiber optic cables, offering enhanced performance and flexibility. Hybrid Copper Fiber Cables are particularly advantageous in scenarios where both power and data need to be transmitted over long distances efficiently. They are increasingly being adopted in environments that require robust and reliable connectivity, such as data centers and telecommunication networks. The ability to support high-speed data transfer while maintaining cost-effectiveness makes these cables an attractive option for many industries.

Regionally, North America and Europe are expected to dominate the bulk copper cable market due to their advanced technological infrastructures and high adoption rates of new technologies. Asia Pacific, however, is anticipated to exhibit the highest growth rate during the forecast period. This can be attributed to the rapid industrialization and urbanization in countries like China and India, which are investing heavily in developing their telecommunication and IT infrastructure. Additionally, the increasing number of data centers and smart city projects in these regions are further driving the demand for bulk copper cables.

Product Type Analysis

In the product type segment, Cat5e cables continue to hold a significant market share due to their affordability and adequate performance for most residential and small business applications. These cables support speeds of up to 1 Gbps and are suitable for Ethernet networks, making them a popular choice for everyday use. Despite newer and faster categories entering the market, Cat5e remains relevant due to its cost-effectiveness and widespread adoption.

Cat6 and Cat6a cables are increasingly gaining traction, particularly in commercial and industrial settings. These cables offer higher spee

Abstract

The 2017-18 Albania Demographic and Health Survey (2017-18 ADHS) is a nationwide survey with a nationally representative sample of approximately 17,160 households. All women age 15-49 who are usual residents of the selected households or who slept in the households the night before the survey were eligible for the survey. Women 50-59 years old were interviewed with an abbreviated questionnaire that only covered background characteristics and questions related to noncommunicable diseases.

The primary objective of the 2017-2018 ADHS was to provide estimates of basic sociodemographic and health indicators for the country as a whole and the twelve prefectures. Specifically, the survey collected information on basic characteristics of the respondents, fertility, family planning, nutrition, maternal and child health, knowledge of HIV behaviors, health-related lifestyle, and noncommunicable diseases (NCDs). The information collected in the ADHS will assist policymakers and program managers in evaluating and designing programs and in developing strategies for improving the health of the country’s population.

The sample for the 2017-18 ADHS was designed to produce representative results for the country as a whole, for urban and rural areas separately, and for each of the twelve prefectures known as Berat, Diber, Durres, Elbasan, Fier, Gjirokaster, Korce, Kukes, Lezhe, Shkoder, Tirana, and Vlore.

Geographic coverage

National coverage

Analysis unit

• Household
• Individual
• Children age 0-5
• Woman age 15-49
• Man age 15-59

Universe

The survey covered all de jure household members (usual residents), children age 0-4 years, women age 15-49 years and men age 15-59 years resident in the household.

Kind of data

Sample survey data [ssd]

Sampling procedure

The ADHS surveys were done on a nationally representative sample that was representative at the prefecture level as well by rural and urban areas. A total of 715 enumeration areas (EAs) were selected as sample clusters, with probability proportional to each prefecture's population size. The sample design called for 24 households to be randomly selected in every sampling cluster, regardless of its size, but some of the EAs contained fewer than 24 households. In these EAs, all households were included in the survey. The EAs are considered the sample's primary sampling unit (PSU). The team of interviewers updated and listed the households in the selected EAs. Upon arriving in the selected clusters, interviewers spent the first day of fieldwork carrying out an exhaustive enumeration of households, recording the name of each head of household and the location of the dwelling. The listing was done with tablet PCs, using a digital listing application. When interviewers completed their respective sections of the EA, they transferred their files into the supervisor's tablet PC, where the information was automatically compiled into a single file in which all households in the EA were entered. The software and field procedures were designed to ensure there were no duplications or omissions during the household listing process. The supervisor used the software in his tablet to randomly select 24 households for the survey from the complete list of households.

All women age 15-49 who were usual residents of the selected households or who slept in the households the night before the survey were eligible for individual interviews with the full Woman's Questionnaire. Women age 50-59 were also interviewed, but with an abbreviated questionnaire that left out all questions related to reproductive health and mother and child health. A 50% subsample was selected for the survey of men. Every man age 15-59 who was a usual resident of or had slept in the household the night before the survey was eligible for an individual interview in these households.

For further details on sample design, see Appendix A of the final report.

Mode of data collection

Face-to-face [f2f]

Research instrument

Four questionnaires were used in the ADHS, one for the household and others for women age 15-49, for women age 50-59, and for men age 15-59. In addition to these four questionnaires, a form was used to record the vaccination information for children born in the 5 years preceding the survey whose mothers had been successfully interviewed.

Cleaning operations

Supervisors sent the accumulated fieldwork data to INSTAT’s central office via internet every day, unless for some reason the teams did not have access to the internet at the time. The data received from the various teams were combined into a single file, which was used to produce quality control tables, known as field check tables. These tables reveal systematic errors in the data such as omission of potential respondents, age displacement, inaccurate recording of date of birth and age at death, inaccurate measurement of height and weight, and other key indicators of data quality. These tables were reviewed and evaluated by ADHS senior staff, which in turn provided feedback and advice to the teams in the field.

Response rate

A total of 16,955 households were selected for the sample, of which 16,634 were occupied. Of the occupied households, 15,823 were successfully interviewed, which represents a response rate of 95%. In the interviewed households, 11,680 women age 15-49 were identified for individual interviews. Interviews were completed for 10,860 of these women, yielding a response rate of 93%. In the same households, 4,289 women age 50-59 were identified, of which 4,140 were successfully interviewed, yielding a 97% response rate. In the 50% subsample of households selected for the male survey, 7,103 eligible men age 15-59 were identified, of which 6,142 were successfully interviewed, yielding a response rate of 87%.

Response rates were higher in rural than in urban areas, which is a pattern commonly found in household surveys because in urban areas more people work and carry out activities outside the home.

Sampling error estimates

The estimates from a sample survey are affected by two types of errors: nonsampling errors and sampling errors. Nonsampling errors are the results of mistakes made in implementing data collection and data processing, such as failure to locate and interview the correct household, misunderstanding of the questions on the part of either the interviewer or the respondent, and data entry errors. Although numerous efforts were made during the implementation of the 2017-18 Albania Demographic and Health Survey (ADHS) to minimize this type of error, nonsampling errors are impossible to avoid and difficult to evaluate statistically.

Sampling errors, on the other hand, can be evaluated statistically. The sample of respondents selected in the 2017-18 ADHS is only one of many samples that could have been selected from the same population, using the same design and expected size. Each of these samples would yield results that differ somewhat from the results of the actual sample selected. Sampling errors are a measure of the variability among all possible samples. Although the degree of variability is not known exactly, it can be estimated from the survey results.

Sampling error is usually measured in terms of the standard error for a particular statistic (mean, percentage, etc.), which is the square root of the variance. The standard error can be used to calculate confidence intervals within which the true value for the population can reasonably be assumed to fall. For example, for any given statistic calculated from a sample survey, the value of that statistic will fall within a range of plus or minus two times the standard error of that statistic in 95% of all possible samples of identical size and design.

If the sample of respondents had been selected as a simple random sample, it would have been possible to use straightforward formulas for calculating sampling errors. However, the 2017-18 ADHS sample is the result of a multi-stage stratified design, and, consequently, it was necessary to use more complex formulas. Sampling errors are computed in SAS, using programs developed by ICF. These programs use the Taylor linearization method to estimate variances for survey estimates that are means, proportions, or ratios. The Jackknife repeated replication method is used for variance estimation of more complex statistics such as fertility and mortality rates.

A more detailed description of estimates of sampling errors are presented in Appendix B of the survey final report.

Data appraisal

Data Quality Tables - Household age distribution - Age distribution of eligible and interviewed women - Age distribution of eligible and interviewed men - Completeness of reporting - Births by calendar years - Reporting of age at death in days - Reporting of age at death in months

See details of the data quality tables in Appendix C of the survey final report.

Two-frequency GNSS receivers with antennas at fixed station locations receive and record signals transmitted from GPS and GLONASS satellites 24 hours a day. The data is transmitted via the Internet to the GPS Centre. Here they are processed by software that, among other things, forms data streams in RTCM format and stores station data in the form of RINEX files.

Data streams in RTCM format are transmitted to the World Wide Web via Ntrip (Networked Transport of RTCM via Internet Protocol) of the GPS Service server. RINEX files are transmitted to users via the website..

SIGNAL field users use GNSS receivers to perform position measurements. By receiving satellite data and using SIGNAL data at the same time (the user selects the appropriate RTCM data stream), they can determine the position (point coordinations) directly in real-time ETRS89 with better accuracy than if they were receiving satellite data alone. The data of the SIGNAL network must be received by the user via the mobile network in real time. Users also have the possibility to use SIGNAL data after performing field measurements by after-processing their observations in combination with observations of the permanent stations of the SIGNAL network.

According to Cognitive Market Research, the global USB Extender market size will be USD 1324.2 million in 2024. It will expand at a compound annual growth rate (CAGR) of 8.00% from 2024 to 2031.

North America held the major market share for more than 40% of the global revenue with a market size of USD 529.6 million in 2024 and will grow at a compound annual growth rate (CAGR) of 6.2% from 2024 to 2031.
Europe accounted for a market share of over 30% of the global revenue with a market size of USD 397.2 million.
Asia Pacific held a market share of around 23% of the global revenue with a market size of USD 304.5 million in 2024 and will grow at a compound annual growth rate (CAGR) of 10.0% from 2024 to 2031.
Latin America had a market share of more than 5% of the global revenue with a market size of USD 66.21 million in 2024 and will grow at a compound annual growth rate (CAGR) of 7.4% from 2024 to 2031.
Middle East and Africa had a market share of around 2% of the global revenue and was estimated at a market size of USD 26.48 million in 2024 and will grow at a compound annual growth rate (CAGR) of 7.7% from 2024 to 2031.
The USB 2.0 Type category is the fastest growing segment of the USB Extender industry

Market Dynamics of USB Extender Market

Key Drivers for USB Extender Market

Increasing Data Transfer Requirement to Boost Market Growth

The demand for high-speed, reliable data transfer has surged across various industries such as IT, gaming, broadcasting, healthcare, and industrial automation. In 2020, users generated 64.2 zettabytes (ZB) of data—surpassing the number of detectable stars in the cosmos. This figure is expected to grow, with data creation projected to reach 147 ZB by the end of 2024. With around 5.35 billion internet users globally, each individual is estimated to generate approximately 15.87 terabytes (TB) of data daily. In 2023, the world produced roughly 120 ZB, translating to about 337,080 petabytes (PB) of data per day. Given the vast number of internet users, this equates to an estimated 15.87 TB of data per person daily. USB extenders are essential for transmitting data over longer distances, exceeding the 5-meter limit of standard USB cables while maintaining signal quality. These devices are particularly important in applications requiring long-range data transmission, such as in security systems and data centers. As data-intensive activities like video editing, 4K content streaming, and high-definition surveillance become more prevalent, the demand for USB extenders continues to grow.

Expansion of Audio-Visual (AV) and Gaming Industries to Drive Market Growth

The expanding AV industry, particularly in broadcasting, video production, and gaming, is a key growth driver for the USB extender market. According to the 2024 "Essential Facts About the U.S. Video Games Industry" report, 190.6 million Americans play video games weekly. Generation Alpha and Generation Z are the largest users, with 54% preferring PC and 58% using consoles for gameplay. Additionally, 78% of U.S. households have engaged with at least one gaming device in the past 12 months, and 63% of players believe video games provide the best value for their money. High-performance USB extenders are critical for live streaming, video conferences, and gaming setups, where devices like cameras, microphones, and controllers need to be positioned at a distance from the main control systems. The growing demand for stable, high-speed connections in these industries is driving the increasing need for USB extenders.

Restraint Factor for the USB Extender Market

Limited Bandwidth and Distance Will Limit Market Growth

Distance and bandwidth limitations pose significant challenges to the growth of the global USB extender market. Restrictions on data transmission due to these factors can hinder uninterrupted data transfer, affecting market expansion. These constraints can impede the efficient transmission of data over long distances, thereby impacting the overall performance and usability of USB extenders across various sectors and applications. For example, as distance increases, so does propagation loss, resulting in diminished signal quality. Similarly, higher bandwidth leads to a higher thermal noise floor, reducing signal clarity over extended distances. Additionally, higher bandwidth increases data bitrate, which is influenced by the power and noise received, further impacti...