Advanced Channel Modeling expertise
In the face of evolving standards, operators encounter challenges such as enhancing radio infrastructure and spectrum efficiency, leveraging AI for intelligent networks, integrating non-terrestrial networks, and supporting massive mobile device connectivity with ultra-low latency.
Our team excels in creating advanced simulation scenarios, leveraging high-fidelity prediction models. We utilize an accurate Telecom Digital Twin (indoor & outdoor), precise wireless propagation models (3D ray-tracing), and advanced enabling technologies (MIMO, RIS, NTN, ISAC …).
Innovating for over three decades, our expertise is rooted in the achievements of leading mobile operators and manufacturers, offering state-of-the-art solutions for your wireless simulation requirements.
Explore Next-Gen connectivity use cases
UAV
Ensuring seamless connectivity between 5G/6G terrestrial networks and moving drones presents several challenges. The primary issue is maintaining a stable connection as drones move, which requires dynamic optimization and real-time configuration of radio links between antennas and drones.
Factors such as signal interference, varying drone speeds, and changing altitudes complicate this task. Additionally, the environment can introduce obstacles that disrupt signals, necessitating continuous adjustments to maintain optimal connectivity.
The system must adapt to fluctuating network conditions and ensure that the drones remain connected without interruption. This involves sophisticated algorithms and advanced software capable of managing these dynamic changes efficiently.
Moreover, the integration of 5G/6G technology with drones must consider latency, bandwidth allocation, and the overall reliability of the connection.
Achieving this level of connectivity is crucial for the effective deployment of drones in various applications, from delivery services to surveillance, making it a complex but essential challenge to address.
RIS – Reconfigurable Intelligent Surface
Reconfigurable Intelligent Surface (RIS) technology is revolutionizing the telecom sector by enhancing signal strength and coverage.
RIS can dynamically control electromagnetic waves, improving network efficiency and reducing interference. This technology enables better connectivity in challenging environments, supports higher data rates, and enhances the overall user experience.
By optimizing signal propagation, RIS plays a crucial role in the advancement of 5G and future wireless communication systems, making it a key innovation in modern telecommunications.
Investing in advanced connectivity testing solutions for RIS in the telecom sector offers significant advantages.
It ensures precise and reliable performance evaluations, optimizes signal propagation, and reduces interference.
5G/6G vehicular communication
5G and 6G technologies are transforming vehicular communication by enabling ultra-fast data transfer, low latency, and high reliability.
These advancements support real-time vehicle-to-everything (V2X) communication, enhancing road safety and traffic management.
With 5G/6G, autonomous vehicles can share data instantly, improving navigation and collision avoidance.
These technologies also facilitate advanced infotainment systems and seamless connectivity for passengers, making them essential for the future of intelligent transportation systems and smart cities.
Investing in advanced connectivity testing solutions for 5G/6G vehicular communication technologies ensures precise performance evaluations, optimizes data transfer rates, and minimizes latency.
It supports the seamless integration of autonomous driving features, improves traffic management, and provides high-speed connectivity for passengers.
MIMO
MIMO (Multiple Input Multiple Output) technology is revamping the telecom sector by significantly enhancing data transmission efficiency and network capacity.
By using multiple antennas at both the transmitter and receiver ends, MIMO improves signal quality and reduces interference. This technology supports higher data rates and more reliable connectivity, making it crucial for modern wireless communication systems.
MIMO is essential for the advancement of 5G networks, enabling faster and more stable connections in increasingly complex environments.
“We found Siradel’s propagation tool to provide channel matrices essential for our MIMO algorithm development and accurate assessment of network capacity,” Mike Wolfe, VP, Chief Technology Office, OWN Segment
Future Railway Mobile Communication System (FRMCS) and 5G Connectivity for Passengers
Channel modeling for railway communication is crucial to ensure reliable and efficient connectivity, both above the train and onboard the train. It involves evaluating Vehicle Penetration Loss (VPL) and simulating the unique propagation environments encountered by trains, such as tunnels, urban areas, and open countryside.
Achieving a highly accurate description of the railway track and nearby areas with deep cutting slopes and embankments requires high-quality railway digital twins and advanced solutions for channel modeling, which play a crucial role in evaluating propagation phenomena along the railway.
Using our RF Digital Twin tailored for railway communications in addition to accurate channel models helps optimize signal transmission, reduce interference, and enhance spectral efficiency in complex propagation environments. This is relevant to supporting seamless communication between trains and control centers, improving safety, and providing high-speed internet for passengers.
JACS Technology
JCAS, also known as Integrated Sensing and Communication (ISAC), is a key enabler transforming wireless systems by seamlessly integrating communication and sensing.
This approach allows radio signals to be used simultaneously for data transmission and environmental sensing of both passive (unconnected) and active (connected) objects, enhancing spectral efficiency and situational awareness.
JCAS/ISAC supports real-time applications such as smart city monitoring, autonomous vehicle safety, and industrial IoT. In UAVs, it enables dynamic perception for navigation and surveillance.
Advanced connectivity testing solutions ensure precise performance evaluation of JCAS/ISAC systems. Accurate channel modeling, powered by RF Digital Twins and robust ray-based models, helps mitigate signal interference, ensuring reliable communication and accurate sensing, even in complex environments.
Driven by a passion for research and development, Siradel actively contributes to pioneering projects that advance the telecom industry, highlighting our role in shaping the future of connectivity.
Dive into the future of wireless connectivity
Siradel excels in both geodata expertise and telecom consulting, offering comprehensive solutions for diverse applications. Our extensive experience in geospatial data production and our cutting-edge R&D in emerging telecom technologies ensure that we provide precise, innovative, and actionable insights to meet the evolving needs of our clients.
Perspectives on the Future of Telecommunications
Carlos Faouzi Bader, Senior Director of the Digital Science Success Center (DSSC) at the Technology Innovation Institute (TII), shares his expert insights on the future of telecommunications. As a valued client of Siradel, Carlos discusses:
- 6G and AI Innovations: How 6G technology is evolving and the indispensable role of artificial intelligence in shaping future technologies.
- Challenges in the Industry: The major hurdles in finding skilled professionals, building future infrastructure, and managing high-speed data processing.
- Evolving Engineer Profiles: The shift towards engineers with interdisciplinary knowledge and expertise in multiple technologies.
- Collaboration with Siradel: The innovative use of Siradel’s digital twin technology to enhance 6G coverage and maintain current 5G networks.
A complete Telecom Geodata set
Siradel provides a comprehensive geodata portfolio, offering detailed data at various scales.
With over 30 years of experience, we excel in 3D and 2D data production using satellite imagery, aerial imagery, and LIDAR. Our unique in-house methodology, enhanced by AI/ML, produces realistic 3D models of terrain, buildings, vegetation, and urban infrastructure.
Accurate wireless simulations rely heavily on precise 3D modeling of the environment.
This ensures that simulations can accurately replicate real-world propagation behavior. Combining accurate environmental modeling with precise propagation modeling forms the core of a Digital Twin approach in wireless communications.
Siradel offers 3D geodata products like 3DCity and 3D Industry, specifically designed for the telecom industry, emphasizing accuracy and quality. These geodata products are ideal for wireless research activities using the Siradel InoWave simulation solution.
