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5G V2X Communications Market Growth Analysis 2025

The global 5G V2X Communications market was valued at US$ 107.22 million in 2023 and is anticipated to reach US$ 3.9 Billion by 2030, witnessing a CAGR of 66.67% during the forecast period 2024-2030.

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5G V2X Communications, or Vehicle-to-Everything Communications, refers to a technology that allows vehicles to communicate with other vehicles, road infrastructure, pedestrians, and traffic management systems. This communication can be used to improve safety, increase efficiency, and create more comfortable driving experiences.

The major global companies of 5G V2X Communications include Quectel, Harman International Industries, CICTCI, etc. In 2023, the world's top three vendors accounted for approximately 44.44 % of the revenue.

This report aims to provide a comprehensive presentation of the global market for 5G V2X Communications, with both quantitative and qualitative analysis, to help readers develop business/growth strategies, assess the market competitive situation, analyze their position in the current marketplace, and make informed business decisions regarding 5G V2X Communications.

The 5G V2X Communications market size, estimations, and forecasts are provided in terms of and revenue ($ millions), considering 2023 as the base year, with history and forecast data for the period from 2019 to 2030. This report segments the global 5G V2X Communications market comprehensively. Regional market sizes, concerning products by Type, by Application, and by players, are also provided.

For a more in-depth understanding of the market, the report provides profiles of the competitive landscape, key competitors, and their respective market ranks. The report also discusses technological trends and new product developments.

The report will help the 5G V2X Communications companies, new entrants, and industry chain related companies in this market with information on the revenues for the overall market and the sub-segments across the different segments, by company, by Type, by Application, and by regions.

Market Segmentation

By Company

Quectel

Harman International

CICTCI

LG Innotek

ZTE

SimCOM

Commsignia

Cohda Wireless

Neoway Technology

Segment by Type

Hardware

Software

Segment by Application

Intelligent Driving

Intelligent Transportation

Communications and Entertainment

By Region

North America

United States

Canada

Asia-Pacific

China

Japan

South Korea

Southeast Asia

India

Rest of Asia

Europe

Germany

France

U.K.

Italy

Rest of Europe

South America

Brazil

Rest of South America

Middle East & Africa

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Quectel Introduces KCM0A5S Wi-SUN Module for Smart City and Smart Utility Devices

Quectel Introduces KCM0A5S Wi-SUN Module for Smart City and Smart Utility Devices

Veterinary Services Strategies In The Global Market: Key Insights From The 2025 Report

The global 5G In Healthcare Market, valued at USD 50.64 billion in 2023, is on track to experience an impressive surge, with projections indicating it will reach USD 834.24 billion by 2032. This represents a remarkable compound annual growth rate (CAGR) of 36.56% from 2024 to 2032. The rapid adoption of 5G technologies in healthcare is expected to revolutionize medical services, providing faster, more efficient, and innovative solutions across multiple healthcare applications.

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Market Overview

5G, the fifth generation of wireless technology, is poised to become a game-changer in healthcare, bringing unprecedented speed, low latency, and massive connectivity. The increased adoption of 5G is expected to enhance telemedicine, remote patient monitoring, smart hospitals, and real-time data transfer between medical devices and healthcare providers. By enabling seamless communication, 5G technology will play a vital role in improving patient outcomes, enhancing healthcare delivery, and reducing operational costs.

The healthcare industry has been progressively integrating digital solutions, and 5G technology is expected to provide the infrastructure necessary to support the growing demand for high-bandwidth, low-latency applications. As healthcare services become increasingly remote, and demand for efficient, real-time data sharing rises, 5G is positioned to enhance these capabilities significantly.

Key Players

China Mobile International Limited – 5G Healthcare Solutions, Remote Healthcare Monitoring, and Telemedicine Services.

Quectel – 5G IoT Modules, Healthcare Connectivity Solutions, and Smart Medical Devices.

TELUS International – TELUS 5G Health Services for Telemedicine, Remote Care, and Mobile Health Applications.

Huawei Technologies Co., Ltd. – Huawei 5G-Enabled Healthcare Solutions, Telemedicine Infrastructure, and Connected Medical Devices.

Cisco Systems, Inc. – Cisco 5G Healthcare Solutions for Telehealth Platforms and Secure Healthcare Communications.

Orange – Orange 5G-Powered Remote Monitoring Solutions, Connected Medical Devices, and Healthcare IoT.

NEC Corporation – NEC 5G Network Solutions for Healthcare, Telemedicine, and Remote Patient Management Systems.

Fibocom Wireless Inc. – 5G IoT Modules for Healthcare Devices and Connected Medical Equipment.

Qualcomm – Qualcomm 5G Chips for Healthcare Devices, Wearables, and Remote Monitoring.

Ericsson – Ericsson 5G-enabled Healthcare Network Infrastructure and IoT Solutions for Remote Patient Monitoring.

Nokia Corporation – Nokia 5G Healthcare Connectivity, Smart Medical Devices, and Remote Health Monitoring Solutions.

China Mobile Limited – 5G-Based Telehealth Solutions and Smart Healthcare Services.

Samsung Electronics Co., Ltd. – Samsung 5G-Enabled Smart Healthcare Devices, Wearables, and Mobile Health Applications.

Growth Drivers

Several factors are driving the rapid adoption and growth of 5G in healthcare:

Enhanced Speed and Latency: One of the most notable advantages of 5G technology is its ability to deliver ultra-fast data speeds and extremely low latency. In healthcare, this means faster transmission of medical data, enabling real-time monitoring of patients, rapid diagnostics, and more efficient treatment delivery. For example, remote surgeries and consultations, which require high-definition video and real-time data exchanges, will become more viable with 5G connectivity.

Telemedicine and Remote Patient Monitoring: The COVID-19 pandemic accelerated the global adoption of telemedicine and remote patient monitoring. With 5G, these services will become even more efficient, offering high-quality video consultations, improved patient engagement, and seamless communication between healthcare professionals and patients. Real-time data transmission for remote monitoring of vital signs, chronic disease management, and emergency care will also be vastly improved, leading to better health outcomes.

Smart Hospitals and Healthcare Facilities: 5G’s low latency and high-speed capabilities are enabling the creation of smart hospitals. These facilities utilize connected medical devices, Internet of Things (IoT) sensors, and other digital health technologies to monitor patients, manage hospital workflows, and improve efficiency. 5G will ensure smooth communication between devices and systems, reducing downtime, enhancing operational efficiency, and improving patient care.

Artificial Intelligence (AI) and Big Data: 5G technology will support AI and big data analytics in healthcare by enabling the seamless transfer of large datasets needed for training algorithms, predictive analytics, and personalized treatment plans. With the ability to transmit data from various sources in real-time, 5G will empower healthcare professionals to make data-driven decisions faster and more accurately.

Wearables and Connected Medical Devices: The growing use of wearable health devices—such as smartwatches, fitness trackers, and wearable ECG monitors—is contributing to the demand for 5G connectivity in healthcare. These devices generate a significant amount of real-time health data that needs to be transmitted quickly and securely. 5G will provide the necessary infrastructure to support the increasing number of connected medical devices, allowing healthcare providers to monitor patients in real-time and intervene as necessary.

Surgical Advancements: One of the most exciting applications of 5G in healthcare is in the field of surgery. The technology enables the possibility of remote surgeries with surgeons operating from different geographical locations, using robotic tools and relying on real-time data and high-definition video feeds. This is particularly significant in regions with limited access to skilled surgeons or medical resources.

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Key Market Segments

By Component

Hardware

Services

By Application

Remote Patient Monitoring

Connected Medical Devices

AR/VR

Connected Ambulance

Asset Tracking

By End Use

Healthcare Providers

Healthcare Payers

Other End Users

Technological Innovations and Future Outlook

5G is expected to enable several key technological innovations in healthcare, including virtual reality (VR) for surgical training and patient care, advanced AI-driven diagnostics, and the increased use of robotic surgeries. The ability to transmit data in real-time will also open up new possibilities for personalized medicine, allowing healthcare providers to tailor treatments based on up-to-date patient data.

As the market expands, key players such as Qualcomm, Ericsson, Nokia, Huawei, and Cisco are actively investing in the development of 5G networks and healthcare-specific solutions. These companies are partnering with healthcare providers to integrate 5G technology into existing healthcare systems.

Conclusion

The 5G in healthcare market is set for unprecedented growth, driven by the demand for faster, more reliable, and efficient healthcare solutions. With a projected CAGR of 36.56% from 2024 to 2032, 5G technology is transforming the healthcare landscape by enabling remote patient monitoring, telemedicine, and advanced surgical applications. As healthcare providers and patients increasingly rely on digital health solutions, 5G is poised to become a cornerstone of the future of healthcare.

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Quectel Introduces LG580P GNSS Module for High-Precision Positioning

Key Takeaways Quectel launches the LG580P, a multi-band GNSS module designed for high-precision positioning applications. Supports L1, L2, L5, and L6 bands, enabling real-time kinematic (RTK) positioning with a dual antenna heading algorithm. Built-in interference detection and anti-jamming capabilities enhance signal reliability in complex electromagnetic environments. Compatible with multiple…

Quectel presenta el módulo LG580P multiconstelación y multibanda compatible con el GNSS y la RKT para aplicaciones de navegación de alta precisión

Agencias, Ciudad de México.- Quectel Wireless Solutions, proveedor global de soluciones para la internet de las cosas (IoT), anunció hoy el lanzamiento de su módulo LG580P, un módulo multiconstelación y multibanda compatible con el Sistema Mundial de Navegación por Satélite (GNSS) que está diseñado para localizaciones de alta precisión. Admite señales de múltiples bandas: L1, L2, L5 y L6, lo que permite una localización cinemática en tiempo real (RTK). Además, integra un algoritmo de orientación de doble antena que mejora la precisión y la confiabilidad. Diseñadores y desarrolladores buscan crear dispositivos que combinen una localización de alta precisión con un bajo consumo de energía. El módulo LG580P es una opción ideal en aplicaciones para robots inteligentes y dispositivos que se utilizan en agricultura de precisión, sistemas avanzados de asistencia al conductor (ADAS) y de conducción autónoma.

El módulo tiene integrados algoritmos de detección y eliminación de interferencias de nivel profesional que mitigan varios tipos de interferencias de banda estrecha. Esto mejora significativamente la recepción de señal, sobre todo en entornos electromagnéticos complejos. El módulo LG580P también soporta anti-interferencias. Trae integrada una unidad anti-interferencias NIC de nivel profesional y proporciona información de detección de integridad que ayuda en la toma de decisiones de control en entornos de navegación automática.

“Estamos muy entusiasmados con la presentación del módulo LG580P porque ofrece otro nivel de capacidades de localización de alta precisión, sólidas y de bajo consumo para los sectores que usan navegación de alta precisión”, dijo Norbert Muhrer, presidente y CSO de Quectel Wireless Solutions. “Su diseño compacto, bajo consumo de energía y características seguras atienden las diversas necesidades de los usuarios para múltiples bandas y constelaciones. El módulo LG580P también ofrece una solución confiable para escenarios complejos en los que se requieren localización y orientación de alta precisión”.

El módulo LG580P es muy versátil, ya que soporta numerosas bandas y constelaciones de satélites. El módulo ofrece soporte para el Sistema Mundial de Navegación por Satélite (GNSS) con 1040 canales de seguimiento, lo que permite la recepción simultánea de las constelaciones GPS, GLONASS, Galileo, BDS, QZSS y NavIC. Además, el módulo LG580P es compatible con múltiples sistemas SBAS, como WASS, EGNOS, BDSBAS, MSAS, GAGAN y SDCM.

Es un módulo ultracompacto que mide solo 21.0 mm x 16.0 mm x 2.6 mm y puede operar en un rango de temperaturas de entre -40 °C y +85 °C, lo que amplía aún más su aplicabilidad. Cumple con la normativa RoHS y cuenta con interfaces, como UART, SPI, I2C y CAN. A partir del segundo trimestre de 2025, el módulo también soportará el algoritmo de posicionamiento preciso (PPP), por lo que podrá usar los servicios de alta precisión (HAS) de Galileo en las señales E6 y BDS B2b. Esto permitirá una alta precisión de localización sin necesidad de contar con redes de corrección adicionales.

Quectel también proporciona dos antenas del GNSS de banda completa compatibles con el módulo LG580P: la YEGR001W8AH, antena del GNSS activa con múltiples opciones de montaje; y la YEGD006U1A, que garantiza una localización precisa y confiable.

Las personas que vayan a MWC Barcelona y a Embedded World en Múnich podrán obtener más información sobre el módulo LG580P y otros productos de Quectel en el estand de Quectel. En MWC Barcelona, Quectel estará en el estand 5A19. En Embedded World, en el estand 3-318. Los asistentes que quieran programar una reunión, pueden hacerlo aquí.

[ad_1] We recently released the RTK Postcard, capable of quadband reception. Today we’re gonna talk about what quadband is, why multiband reception is great for accuracy, and what other products we have that can get you there. by [redacted] December 31, 2024 4:53 pm UTC 1 Favorited Favorite 0 We’ve got a lot of products that talk about bands - we just released two products featuring Quectel's LG290P, the RTK Postcard and the Quadband Breakout Board. We also have products that boast triband reception, like the RTK Torch and the mosaic-X5. We talked about L-band a few months ago, the frequency at which GNSS communications are sent from satellites. But now that we know what bands are, why do we want more of them? Well, I’m glad you asked. What are GNSS Bands? GNSS signals are broadcast over multiple frequency ranges within the L-band, these ranges are referred to as “bands.” L1, L2, and L5 are common GPS bands that all transmit different types of data. As we talked about in our blog about l-band, we use this frequency band because these frequencies are low enough to penetrate atmospheric layers effectively, but high enough to provide reliable data transmission, even in challenging environments like forests or urban areas. The term “band” refers to a specific range of frequencies within the radio spectrum. This terminology originates from radio engineering, where the entire electromagnetic (EM) spectrum is divided into frequency “bands” (e.g., VHF, UHF, L-band) based on characteristics, regulatory allocations, and common uses.. Today, other GNSS constellations—such as Galileo (Europe), GLONASS (Russia), and BeiDou (China)—have their own allocated frequency bands within the L-band and other ranges, often close to the GPS frequencies. To prevent interference, international agreements and regulatory bodies , like the International Telecommunication Union (ITU), coordinate these frequency allocations. Through a system of shared standards and monitoring, GNSS constellations operate side-by-side with minimal interference, and “multi-constellation” GNSS receivers can pick up signals across multiple constellations to provide highly reliable, accurate positioning. That’s a lot of bands! So if each one has a specific purpose and user group, why do we make products that tout multiband reception? The short answer is it gives you better accuracy. The long answer? Let’s get into it. What’s so great about multiband? The radio spectrum is broad, ranging from 3 Hz to 3000 GHz. This means radio waves can have a wavelength as small as 1mm all the way up to 100km. The frequencies used for satellite communications were chosen due to their ability to penetrate through objects and interference, but even within that small range, different frequencies have different characteristics that make them useful for different applications. Lower frequencies penetrate through more material, but at the cost of having lower bandwidth (less data per second). Higher frequency signals with higher energy are absorbed/reflected more easily, but they can carry more data more quickly. Radio is perfect for satellite communications because of atmospheric windows. Lower frequency radio waves penetrate the Earth's atmosphere more easily because of their longer wavelengths, which means they interact less with the molecules in the air, allowing them to pass through with minimal disruption, unlike higher frequency waves which are more readily absorbed or scattered by the atmosphere's components. When a receiver can take in data from all these different bands, it raises the likelihood of that receiver getting a signal, which means a faster fix and a more accurate fix. More information paints a clearer picture of precision. Dilution of Precision Dilution of Precision is a dimensionless number that specifies the error in a GNSS positional fix. This number depends on a receiver's relative geometry to the satellites it's receiving signals from. The higher this number, the weaker the geometry and the lower the accuracy of the signals. Complex geometry is used to calculate this number, but we've illustrated it for you in the figure set above. If you're relying on multiple satellites, their distribution in the sky is important - if they're too close to each other, your signal becomes less reliable because of the overlap between signals. The more satellites and signals you get, the better your signal will be. This is why having access to multiple bands and multiple constellations is beneficial to your accuracy. What kind of hardware is capable of multiband reception? All receivers receive a base GNSS signal from at least one constellation; L1 (GPS), E1 (Galileo), B1 (Beidou), etc. Many receivers can acquire base signals from all constellations. More advanced receivers can receive multiple bands from all constellations. SparkFun RTK Facet In stock GPS-19984 The SparkFun RTK Facet is a fully enclosed GNSS receiver for centimeter-level positioning. Perfect for high precision geoloca… 17 SparkFun RTK Facet L-Band In stock GPS-20000 The RTK Facet L-Band is your one-stop shop for high precision geolocation and surveying needs without needing a Base or Rover… 10 The most advanced receivers can receive across many bands (L1/L2/L5) and constellations. SparkFun RTK mosaic-X5 28 available GPS-23748 Unleash centimeter-level GPS accuracy with SparkFun's RTK mosaic-X5. Web interface, RINEX logging, WiFi / Ethernet, rugged de… 4 SparkFun RTK Postcard Only 10 left! GPS-26916 The SparkFun Postcard is a compact dev board for high-precision PNT needs that combines the Quectel LG290P GNSS RTK with an E… 1 The next time you're looking for hardware for your GNSS projects, think about what kind of accuracy you're looking for, as well as reliability in different environments. Multiband might be in your future! [ad_2] Source link

MÓDULO QUECTEL EG25-G MINI PCIE: CONECTIVIDAD GLOBAL CAT4 CON RANURA SIM

Quectel revoluciona las comunicaciones de corto alcance con cinco nuevos módulos Wi-Fi y Bluetooth

En su cartera de productos @Quectel_IoT revoluciona las comunicaciones de corto alcance con cinco nuevos módulos Wi-Fi y Bluetooth

Quectel Wireless Solutions, un proveedor global de soluciones IoT, ha presentado cinco módulos diseñados para transformar la conectividad Wi-Fi y Bluetooth en la IoT. Estos módulos ofrecen un rendimiento, confiabilidad y versatilidad sin precedentes, atendiendo a las diversas necesidades de IoT en todo el mundo. Los módulos destacados son: FCS866R y FCE863R: Estos módulos ofrecen un rendimiento…

Quectel Launches QLM29H Dual-Band GNSS Receivers for Precision Positioning

Key Takeaways: Quectel announces the launch of the QLM29H dual-band, multi-constellation GNSS receivers, designed for high-precision positioning. The QLM29H supports dual-band L1 and L5 signals, enhancing positioning accuracy in challenging environments like urban canyons. The receivers are suitable for a wide range of applications, including micromobility, agriculture, navigation, and…

Quectel's FLM263D Is a RISC-V Wi-Fi and Bluetooth Low Energy Module Targeting Matter Projects

Global Top 7 Companies Accounted for 53% of total Automotive NAD (Network Access Device) and Wire market (QYResearch, 2021)

According to the new market research report “Global Automotive NAD (Network Access Device) and Wireless Communication Module Market Report 2023-2029”, published by QYResearch, the global Automotive NAD (Network Access Device) and Wireless Communication Module market size is projected to reach USD 3.18 billion by 2029, at a CAGR of 7.6% during the forecast period.

According to the new market research report “Global Automotive NAD (Network Access Device) and Wireless Communication Module Market Report 2023-2029”, published by QYResearch, the global Automotive NAD (Network Access Device) and Wireless Communication Module market size is projected to reach USD 3.18 billion by 2029, at a CAGR of 7.6% during the forecast period.

Figure.   Global Automotive NAD (Network Access Device) and Wireless Communication Module Market Size (US$ Million), 2018-2029

Figure.   Global Automotive NAD (Network Access Device) and Wireless Communication Module Top 7 Players Ranking and Market Share (Ranking is based on the revenue of 2022, continually updated)

The global key manufacturers of Automotive NAD (Network Access Device) and Wireless Communication Module include LG Innotek, Quectel, U-Blox, Fibocom Wireless, Continental, etc. In 2021, the global top four players had a share approximately 53.0% in terms of revenue.

About QYResearch

QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 16 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future.

QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.