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Public Networks

Supporting Operator Needs

Network Slicing: Network slicing divides the network into virtual “slices,” each tailored to specific needs. Using specialized software, we configure and manage these slices, allocating resources like bandwidth and latency individually. This enables a single physical network to support diverse services simultaneously, such as high-quality video conferencing and remote industrial machinery control, with efficiency.

Edge Computing Integration: Integrating computing capabilities with 5G communications significantly reduces latency, enabling real-time applications. This improves network responsiveness, optimizes resource usage, and unlocks possibilities in sectors like healthcare, industrial operations, and smart cities.

Extreme Edge: This involves computational nodes at the network’s edge, close to end-user devices. These nodes include routers, switches, and IoT devices. Managing the extreme edge ensures optimal performance for applications and services by coordinating these elements effectively.

Private Networks

Tailored Planning and Deployment

Planning: Meticulous evaluation of an organization’s specific needs, focusing on:

  • Coverage: Determining which facility areas need 5G coverage and the density of expected devices.
  • Capacity: Estimating data volume and application types (e.g., IoT, video, voice).
  • Latency: Ensuring applications meet latency requirements (e.g., for industrial control).
  • Reliability: Establishing availability levels and redundancy mechanisms.
  • Security: Mitigating threats with robust security measures.

Design:

  • Radio Planning: Strategically placing base stations to ensure optimal coverage.
  • Core Design: Configuring essential network elements like mobility gateways and data gateways.
  • Integration: Creating interfaces to connect the 5G network with existing systems like industrial control and building management systems.

Deployment:

  • Equipment Installation: Setting up base stations, network cores, and auxiliary equipment.
  • Network Configuration: Fine-tuning key parameters, including cells, users, and services.
  • Testing: Conducting comprehensive tests to ensure proper network functionality.

Support:

  • Monitoring: Continuous performance oversight to detect and address issues.
  • Maintenance: Routine preventive and corrective tasks.
  • Updates: Rolling out software and hardware updates for security and performance.

Innovation Projects

Check the R&D projects we have participated in

Q-AIR

Q-AIR is a technological research and innovation project coordinated under the STEP INNTERCONECTA program (funded by the CDTI and the Ministry of Science, Innovation, and…

SICODI

The SICODI (Distributed Cognitive System for Autonomous, Secure, and Intelligent Factories) project is an industrial research initiative that seeks to revolutionize the automation of industrial…

IMNEXT

IMNEXT was born with the strategic objective of researching and developing the enabling technologies that will shape mobile communication networks Beyond 5G (B5G) and the…

Digital Safe Fishing Vessel (DSFV)

The Digital Safe Fishing Vessel (DSFV) project was born out of an initiative by the Shipowners' Cooperative of the Port of Vigo (ARVI) with the…

TECHDUAL

The TECHDUAL project seeks to design, develop, and validate a modular Unmanned Ground Vehicle (UGV) platform, propelled by hydrogen and equipped with advanced systems such…

CIBUS5G

CIBUS5G is an industrial research project (AEI-010500-2024-191) focused on the food sector, particularly SMEs, with dairy and poultry early adopters. The goal is to develop…

SAETA

SAETA is a project with file number MIG-2024189 aimed at transforming the energy efficiency and connectivity of buildings through the development of advanced glazing systems.…

6GENABLERS-AI

The increasing demand for high-performance, low-latency communication, and the growing volume of data generated in next-generation access networks make AI algorithms essential for adapting to…

PERTE RENAULT GROUP

The focus of the PERTE RENAULT GROUP project is on the verification and validation processes associated with Connected, Intelligent, Safe, Inclusive, and Collaborative Mobility (MCISIC),…

PERTE STELLANTIS

The project focuses on providing advanced services for the Connected Electric Vehicle (VEC) environment using cutting-edge digital technologies. This includes the use of 5G communications…

A5EdgeInfra

The A5GEdgeInfra project aims to investigate the technologies that will enable the coverage of scenarios for which current 5G and Edge Computing deployments are not…

SLISE

El proyecto SLISE está focalizado en mitigar las vulnerabilidades que las nuevas tecnologías de virtualización adoptadas en los estándares 5G añaden en esta generación y…

Otras áreas de innovación

Explora nuestra innovación en otros campos.