Glossary RSS

5G network slicing for IoT is a revolutionary concept that promises to transform the way we connect and interact with the internet of things (IoT) devices. This technology allows network operators to create virtual networks that are tailored to the specific needs of IoT devices, providing them with dedicated resources and customized services.In simple terms, network slicing is a way to divide a single physical network into multiple virtual networks, each with its own set of resources and capabilities. This allows network operators to allocate resources more efficiently and provide better quality of service to different types of devices.For IoT...

Spectrum harmonization in 5G refers to the process of aligning and coordinating the allocation of radio frequencies across different countries and regions to enable seamless and efficient communication networks. This is essential for the successful deployment and operation of 5G technology, as it ensures that devices can connect and communicate with each other regardless of their location.The spectrum is a limited resource that is used for wireless communication, including mobile networks, Wi-Fi, and other wireless technologies. With the increasing demand for high-speed data services and the proliferation of connected devices, there is a need to harmonize the allocation of spectrum...

Multi-band spectrum allocation is a method used by telecommunication regulatory bodies to divide the radio frequency spectrum into different bands and allocate these bands to different wireless communication technologies and services. This approach allows for more efficient use of the limited spectrum resources available and helps to minimize interference between different wireless devices and services.The radio frequency spectrum is a finite resource that is in high demand due to the increasing number of wireless devices and services that rely on it for communication. In order to ensure that all users have access to the spectrum they need, regulatory bodies such...

5G technology has been touted as the next big thing in wireless communication, promising faster speeds, lower latency, and increased capacity compared to its predecessors. One of the key features of 5G is its ability to provide seamless connectivity from outdoor to indoor environments, known as outdoor-to-indoor coverage.Outdoor-to-indoor coverage refers to the ability of a 5G network to provide consistent and reliable connectivity as users move from outdoor to indoor environments. This is particularly important in today's world where people are constantly on the move, transitioning between different locations such as homes, offices, shopping malls, and public spaces.In the past,...

Cross-carrier interconnect refers to the process of connecting different telecommunications carriers or service providers to facilitate the exchange of voice, data, and other communication services between their respective networks. In simpler terms, it is the mechanism that enables users on one network to communicate with users on another network seamlessly.In today's interconnected world, where communication is key, cross-carrier interconnect plays a crucial role in ensuring that users can communicate with each other regardless of the network they are on. This is particularly important in the mobile telecommunications industry, where users may be on different carriers but still need to be...

Telecom infrastructure sharing is a practice in the telecommunications industry where multiple service providers come together to share the physical infrastructure required to deliver their services. This can include sharing cell towers, fiber optic cables, and other network equipment. The goal of infrastructure sharing is to reduce costs, improve efficiency, and expand coverage for all parties involved.There are several different types of telecom infrastructure sharing arrangements, including passive sharing, active sharing, and wholesale sharing. Passive sharing involves sharing physical infrastructure such as cell towers and antennas, while active sharing involves sharing network equipment and resources. Wholesale sharing, on the other...

5G network interoperability is a crucial aspect of the next generation of wireless technology that is set to revolutionize the way we communicate, connect, and interact with each other and with the world around us. In simple terms, interoperability refers to the ability of different systems, devices, and networks to work together seamlessly and efficiently, regardless of their underlying technologies, protocols, or standards.In the context of 5G networks, interoperability is particularly important because 5G is not just a single technology or standard, but rather a complex ecosystem of technologies, standards, and protocols that need to work together in order to...

MEC (Multi-access Edge Computing) latency optimization is a crucial aspect of ensuring the efficient performance of edge computing systems. MEC refers to the practice of moving computing resources closer to the edge of the network, where data is generated and consumed, in order to reduce latency and improve overall system performance. Latency optimization in the context of MEC involves minimizing the time it takes for data to travel between the edge devices and the computing resources located at the edge of the network.Latency is a key metric in determining the responsiveness and efficiency of edge computing systems. High latency can...

Hybrid mobile network refers to a network that combines two or more different types of technologies to provide seamless connectivity and better performance for mobile devices. This approach allows mobile users to access a wide range of services and applications, regardless of their location or device capabilities.The concept of hybrid mobile networks has gained significant attention in recent years due to the increasing demand for high-speed data services and the proliferation of mobile devices. With the rapid growth of mobile data traffic, traditional cellular networks have struggled to keep up with the demand for faster and more reliable connectivity. In...

5G signal beam tracking is a critical aspect of the next generation of wireless technology, as it enables devices to maintain a strong and stable connection to the network even as they move around. In simple terms, beam tracking refers to the technology that allows a 5G device to continuously monitor and adjust its connection to the nearest cell tower or base station, ensuring that it always has the best possible signal strength and data throughput.In traditional wireless networks, devices typically connect to a single cell tower or base station and maintain that connection until they move out of range...

5G RIC, or RAN Intelligent Controller, is a crucial component of the 5G network architecture that plays a key role in enabling the efficient and effective operation of 5G radio access networks (RANs). As the name suggests, the RIC is responsible for providing intelligence and control capabilities to the RAN, allowing for dynamic optimization and management of network resources in real-time.One of the key features of 5G RIC is its ability to enable network slicing, which is a key concept in 5G that allows for the creation of multiple virtual networks on top of a single physical network infrastructure. Network...

5G multi-access edge analytics is a cutting-edge technology that leverages the power of 5G networks and edge computing to provide real-time data analysis and insights. This technology is poised to revolutionize the way businesses and organizations collect, process, and utilize data, enabling them to make faster and more informed decisions.At its core, 5G multi-access edge analytics combines the high-speed, low-latency capabilities of 5G networks with the distributed computing power of edge computing. This allows for data to be processed and analyzed closer to the source, reducing the time it takes to generate insights and enabling near real-time decision-making.One of the...

Zero-touch automation in 5G is a revolutionary concept that is set to transform the way networks are managed and operated in the next generation of telecommunications technology. As the world becomes increasingly interconnected and reliant on high-speed, low-latency connectivity, the need for automation in network management has become more critical than ever before. Zero-touch automation in 5G promises to streamline network operations, reduce human errors, and improve overall efficiency in managing complex 5G networks.At its core, zero-touch automation in 5G refers to the ability of a network to automatically configure, monitor, and manage itself without human intervention. This means that...

Ultra-dense networks (UDNs) are a key component of 5G technology, enabling the next generation of wireless communication systems to meet the ever-increasing demands for higher data rates, lower latency, and improved network reliability. UDNs are characterized by a high density of small cells, which are low-power, short-range base stations that provide coverage in densely populated areas. These small cells are deployed in a coordinated manner to improve network capacity and coverage, resulting in a more efficient use of spectrum and better user experience.One of the key challenges in deploying UDNs is interference management. With a high density of small cells...

AI-driven network optimization is a cutting-edge technology that leverages artificial intelligence (AI) algorithms to enhance the performance, efficiency, and reliability of computer networks. By utilizing AI, network optimization can automatically analyze data, identify patterns, and make intelligent decisions to optimize network traffic, reduce latency, and improve overall network performance.Traditional network optimization methods typically involve manual configuration and monitoring of network devices, which can be time-consuming and prone to human error. AI-driven network optimization, on the other hand, automates the optimization process by continuously learning and adapting to changing network conditions in real-time.One of the key benefits of AI-driven network optimization...

Dynamic spectrum sharing (DSS) in LTE is a revolutionary technology that allows mobile network operators to efficiently utilize their available spectrum resources by dynamically allocating spectrum between 4G and 5G services based on demand. This innovative approach enables operators to maximize the efficiency of their networks and provide a superior user experience to their customers.Traditionally, mobile network operators have had to deploy separate spectrum bands for 4G and 5G services, which can be costly and inefficient. With DSS, operators can use the same spectrum band for both technologies, allowing them to make more efficient use of their available spectrum resources...

Service orchestration in 5G is a crucial aspect of the next generation of mobile technology that promises to revolutionize the way we connect and communicate. In simple terms, service orchestration refers to the process of managing and coordinating the various components of a service or network in order to ensure seamless and efficient delivery of services to end users.In the context of 5G, service orchestration is particularly important due to the complex and dynamic nature of the network. With 5G, we are not just talking about faster download speeds or better coverage, but a whole new way of thinking about...

Network automation in telecom refers to the use of software and technology to automate the management and operation of telecommunications networks. This includes tasks such as provisioning, configuration, monitoring, troubleshooting, and optimization of network devices and services. Network automation is becoming increasingly important in the telecom industry as networks become more complex and the demand for faster and more reliable communication services continues to grow.There are several key benefits of network automation in telecom. One of the main advantages is increased efficiency and productivity. By automating routine tasks, telecom operators can reduce the time and effort required to manage their...

5G spectrum refarming is a process in which existing spectrum bands are reallocated or repurposed to support the deployment of 5G networks. This is done in order to meet the increasing demand for mobile data services and to enable the faster speeds and lower latency that 5G promises.The process of spectrum refarming involves the reassignment of spectrum bands that were previously used for older technologies, such as 2G or 3G, to be used for 5G services. This is typically done through a regulatory process in which the government or telecommunications regulatory body reallocates the spectrum licenses to mobile operators for...

Network slicing orchestration is a crucial component of modern telecommunications networks, especially in the context of 5G technology. In simple terms, network slicing orchestration refers to the process of dynamically creating, managing, and optimizing virtual network slices to meet the diverse requirements of different services and applications running on a shared physical network infrastructure.To understand the concept of network slicing orchestration better, it is essential to first grasp the concept of network slicing itself. Network slicing is a key feature of 5G networks that allows operators to partition a single physical network into multiple virtual networks, each tailored to meet...