Pilot Wireless Network

Dingli provides a Pilot Wireless Network Solution that plays a pivotal role in network quality testing and the seamless transmission of signals between base stations and mobile phones. This innovative solution is designed to enhance the overall performance, reliability, and efficiency of wireless networks. Our product range includes various testing instruments and cross-platform post-processing software.

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Small Cell

Small Cell Test Networks stand at the core of the continuous transformation of wireless communication. They serve as pivotal elements in the expansion and fine-tuning of wireless infrastructure to cater to the ever-growing need for swift and dependable connectivity. Unlike public networks, some organizations, such as smart enterprises or hospital possess heightened demands for network quality.

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Drive Test/Outdoor Test

Drive tests, also known as outdoor tests, are essential procedures in the deployment and optimization of 4G and 5G networks. They involve systematically measuring the network's performance in real-world conditions by driving or walking through various geographic areas. These tests provide valuable insights into network coverage, signal quality, and overall performance, allowing network operators to identify and address issues promptly.

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Indoor Test

Indoor Network Test Solutions are pivotal tools for assessing and optimizing mobile phone cellular networks within indoor environments. These solutions are specifically designed to address the unique challenges of providing seamless connectivity in places such as shopping malls, hospitals, office buildings, residences, schools, and underground parking lots.

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Autonomous Measurement

An Autonomous Measurement or automated network testing is a set of tools, software, and processes designed to assess, monitor, and validate the performance of a network infrastructure. It replaces or complements manual testing methods, enabling network engineers to optimize network performance. These solutions are particularly vital in complex, dynamic, and large-scale network environments.

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Laboratory Automation

Laboratory test solutions are integral to the development, validation, and pre-deployment stages of 4G and 5G networks, ensuring their robustness and stability before market introduction. Within these controlled environments, network equipment, devices, and software undergo thorough testing to guarantee optimal performance, reliability, and compatibility.

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Post Processing

Dingli is at the forefront of providing cutting-edge Post Processing solutions tailored for network testing. These solutions are designed to enhance the entire spectrum of network analysis, ensuring optimal performance, reliability, and efficiency. We provide robust software analysis and processing platform for network benchmarking.

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Exploring Life After 5G

DingLi Apr 28, 2024 Blogs

Thinking about mobile networks beyond the world of 5G? Let's explore the tools that could shape the future. We'll highlight the groundbreaking ideas that could boost network capacity. We'll also talk about how these future networks will differ from the ones we use now.

Of course, each great leap forward comes with its own set of challenges. We'll also be looking at those, to give you a full picture of what could be on the horizon. We'll complete the discussion with a look toward the future and a summary of our take on life beyond 5G.

By breaking down these key factors, this article hopes to give you a glimpse of a future where mobile networks open doors we can only imagine now. So, come along for the ride as we explore what's next for mobile networks.

The Growth of Mobile Networks

Mobile network growth started from the 1980s. The first generation, 1G, was known for analog voice communication. It had basic mobile services but came with capacity and coverage limits. The second generation, 2G, evolved in the 1990s. It moved to digital, introducing secure SMS and MMS. This enhanced privacy and security.

The early 2000s saw the third generation or 3G. It brought significant changes with high-speed internet access. Now, video calls were possible and mobile internet witnessed smoother operation. This was due to improved bandwidth.

The late 2000s brought 4G, the next great era. It gave us high-definition mobile TV, video conferencing, and immersive gaming. We got to enjoy these on our hands due to a boost in speed and quality. 4G's fine-tuning with Long-Term Evolution, or 4G LTE, further increased performance. It cut down latency and gave users a top-level experience.

From 2019, we saw the grand launch of 5G. It marked the start of new times with ultra-low latency, massive network capacity, and high speeds up to 10 Gbps. The 5G Network laid the foundation for the Internet of Things (IoT), self-driving cars, and smart cities. This changed our technology game.

The 6G Network is expected around 2030, and it promises to cross our current achievements. It is predicted to offer high speeds up to 100 Gbps and improved connectivity even in remotest areas and the loftiest orbits. 6G aims to revolutionize virtual and augmented realities, changing the face of telepresence.

The evolution of mobile networks shows a relentless effort to meet the world's increasing demand for faster, more dependable connectivity. This journey is bridging the gap between what we imagine and what is real. It continues to inspire a future full of endless possibilities.

Technology Shaping Our Future

New technologies are forming the exciting future of our mobile networks beyond 5G. By 2030, we'll see the birth of 6G. It's going to be a game-changer, promising speeds 100 times faster than 5G. This upgrade will boost mobile internet and fuel cool apps in Virtual Reality, Augmented Reality, and the Internet of Things. This marks a big step in how we connect with digital spaces.

In the meantime, machine learning will dramatically change how networks run. It will do more than just predict when parts need fixing. It will also tailor user experiences. It'll create smart network sections and boost security. These technologies promise smarter, stronger networks.

Edge computing will back this up, processing data near to users. That means less delay, which is vital for apps that need real-time interaction such as self-driving cars and smart cities. This lines up perfectly with the speedy promise of future networks.

Tech enhancements will also push networks further, supporting hundreds of ports to increase network capacity and efficiency. This is important to keep up with the increase in device connectivity.

Network slicing will allow us to make customized virtual networks. This ensures the best use of resources for a range of apps, from the Internet of Things to urgent communications. Quantum communications and blockchain will introduce outstanding security levels, protecting data from modern threats.

Exploring the THz frequency bands will enable amazing data transmission speeds. This will allow advanced apps like 3D holographic communications. Combining satellite and ground networks will guarantee worldwide connectivity, even to the most remote places.

Lastly, two technologies named SDN and NFV will make networks more adaptable and efficient. This adaptability is critical for meeting the ever-changing demands of network users and services. Together, these technologies promise a future of faster, smarter, and safer mobile networks, blending smoothly into every facet of our lives.

Key Features of Future Networks

Future networks are evolving into a world far better than 5G. Imagine moving at incredibly fast speed where data sharing happens instantly due to terabit speed. In addition, we could see many devices per square kilometer designed to boost smart city landscapes and the growth of the IoT, which promises robust connectivity.

One major development is ultra-low latency of less than a millisecond. This is crucial for applications like autonomous driving and virtual reality, allowing for smooth, immediate interactions. Strides in energy efficiency also underline our dedication to sustainability. It's a great way to drastically reduce power use and helps to protect our planet.

Network slicing is changing the game. It provides us the remarkable flexibility to offer personalized networks over the same structure. Evolved mobile broadband will captivate users with unparalleled immersive experiences. These are powered by amazing technologies, like augmented reality and virtual reality.

Moreover, these networks will support massive IoT integrations, connecting us with every aspect of a technology-driven life. The enhanced reliability and lower latency create new opportunities for critical applications, ensuring constant connectivity.

The use of artificial intelligence and machine learning enhances network management, promoting smart, autonomous operations. Quantum technologies will also be integrated to boost security and computing power. This fortifies networks against emerging online threats.

Innovations in antenna design, along with holographic beamforming, promise efficiency and simplicity. By integrating with satellite networks seamlessly and working with edge computing, we can reduce latency and decentralize data processing.

Advanced network management can be achieved with Software-Defined Networking (SDN) and Network Functions Virtualization (NFV), aiming for unrivalled flexibility and robust security protocols.

On the verge of this big technological shift, the way forward seems clear. Regulatory support, cooperative efforts, and significant investments can help shape a future where connection limits are a thing of the past. We're stepping into a new digital age filled with many possibilities.

Insight on Network Slicing

It's crucial to further highlight the transformative impact of network slicing in future networks. This innovative feature allows for the creation of multiple virtual networks on a single physical infrastructure. What stands out is its ability to cater to diverse requirements simultaneously. For instance, a network slice dedicated to autonomous vehicles demands ultra-reliable low-latency communication (URLLC), while a separate slice for a smart home network might prioritize massive machine-type communications (mMTC). This not only maximizes the efficiency of the network resources but also opens up avenues for tailored services that can meet specific demands of various sectors - from healthcare to entertainment, and beyond. This flexibility and efficiency enhancement signify a pivotal step towards truly personalized and scalable network services.

Overcoming Challenges for Mobile Networks

We are looking at a future filled with challenges in the world of mobile networks beyond 5G. People in charge need to take precise and creative steps.

The first issue is spectrum availability. As we shift to higher frequencies, we need to share spectrum effectively. We also need to fix legal issues to make the use of the spectrum global.

Next, we need to consider the cost of upgrading our infrastructure. It gets complex when we need to upgrade our existing 5G networks, especially the urban-rural gap. The divide is not just about technology. It highlights economic and social differences that could grow. We need a plan that can include everyone.

We also face technical problems. We need to design advanced antennas for higher frequencies and work on the energy efficiency of devices and networks. We also need comprehensive global coverage. All these tasks demand continual technology upgrading.

Plus, standardization and compatibility are important. Global standards must be developed along with backward compatibility and good cooperation. This is key for a smooth changeover and encouraging a diverse ecosystem of devices and network suppliers.

Security and privacy concerns heighten as networks grow bigger. We need to add more security protocols and protect user privacy as the volume of data goes up. Combating cyber threats is of utmost importance to keep trust and honesty in future mobile networks.

The expenses of advanced networks can widen the digital divide. Even developing business models for new applications and services carry risks because of the uncertainty about return on investment. This is a big challenge for network companies.

Environmental factors are also important. We need to consider the environmental footprint of building, implementing, and disposing of technology goods. We must commit to green technologies and strategies.

From an ethical and social standpoint, the push towards more than 5G networks brings up debate. Technological advances may replace jobs, and providing equal access and handling social changes due to super-connectivity are crucial and require detailed planning and policy-making.

Finally, non-stop innovation is what will drive the future of the mobile network. The series of challenges need strength and inspiration to create changes that go beyond 5G for a future where everyone has access and power.

Future Outlook

New 6G networks are expected to come around 2030. These will be up to 100 times faster than 5G, touching 1 terabyte per second. What does this mean? Not just super-fast internet, but it offers much more. It'll use higher frequency bands. This means you'll get a more reliable connection and almost no delay. Using satellites, we'll make sure the network covers every place in the world.

Plus, we get quantum communications and computing. This means top-level safe communications and better network resource management. It's also planning to do a lot for the IoT ecosystem. Networks will reach a stage where they can manage a huge number of devices with ultra-reliable low-latency communications. That's essential for critical applications.

Wait, there is more! We'll see a huge growth in virtual reality and augmented reality. This means better immersive experiences with minimal delay. And we are focusing on a greener world too. Our networks will use much less energy.

As we move towards more smart cities and self-driving cars, networks will play an even bigger role. They will connect everything and make real-time data analysis possible. But there are challenges too. Like fitting it all into the spectrum, investing in infrastructure and making sure privacy and security are taken care of.


We are heading into the future of mobile networks. This means new technology and fantastic possibilities. We are examining everything from evolution, tech drivers, features, challenges and what the future holds. The way ahead is promising. New tech will not only improve connection but will create new services. It will also change how we interact with the digital world. However, challenges are ahead like infrastructure and regulation. But if we use new tech and consider their effects, mobile networks will go above current limits. This will lead us into a new age of connecting.

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