5G for production – what The future belongs to the 5G mobile communications standard . All network specialists today agree on this assessment – and practice proves them right. Because while the public is still speculating about health risks or impending espionage attacks from the Far East, industry and mobile phone providers have long since create facts.
The expansion towards 5G is being consistently push forward and is consider an important driver of digitalization. This development reaches deep into the structure and organization of industrial process management. According to a survey publish by the VDMA in autumn 2019, 69 percent of German mechanical and plant engineering companies want to equip their products with 5G interfaces in the future. 35 percent are planning to set up their own 5G campus networks. And words are follow by actions: leading German industrial companies have already start setting up private 5G networks or have appli for licenses for local networks.
In the first deployment phase, among other things, actual user behavior is simulate
In the campus area, 5G antennas and 5G repeaters are mount at short intervals on smaller masts or walls, ceilings and supports.
Sophisticated monitoring solutions ensure maximum transparency during operation. The image shows a 3D visualization of the network performance.
>In fact, the new standard promises a technological quantum Kuwait Phone Number List leap, as 5G can transmit much more data than conventional radio connections. But 5G also offers exceptionally low latency times, similar to the performance potential of fiber optic cables. Such short latencies are of particular interest in manufacturing areas where reliable real-time reactions from numerous wireless end devices must be ensure – for example in the course of human-robot interaction, when displaying worker instructions on notebooks and tablets, when using feedback-generating preliminary products or when using data glasses.
The most important terms
5G is the fifth generation of mobile networks. This should enable response times of up to 1 ms and data rates of up to 10,000 megabits/s. At the same time, greater reliability (resilience) is promised. That is why many are certain that 5G is a basis for Industry 4.0.
Inzweiche, there are already different profiles of 5G: A wireless network that is limited to a defined area, such as a factory hall or company premises, is called a campus network. It is a private network of the company. Latency is a unit of time. It indicates the time it takes for a small data packet to travel from a device to a server and back again. A short latency means a fast transfer. The unit of measurement is usually milliseconds (ms).
Quality of Service (QoS): The Quality of Service indicates how well the quality of the network service matches the user’s requirements. This involves the interaction of several objects or devices.
5G when retrofitting
The digitization of analog machine parks also often depends on a highly stable radio connection: where long investment cycles do not allow for timely machine replacement, sensors or actuators Cell Phone Number Database often have to be retrofitted that only tolerate low latencies but can no longer be subsequently connected via cabling. 5G networks with short latency represent an effective solution here.
The same applies where company data must be access with extremely short latency. In the medium to long term, future technologies such as autonomous driving will also benefit: although 5G connections are not require for this. Higher data rates and extremely short latencies will also greatly improve the convenience and security of all processes.
Stability requirements
From a network operator’s perspective, 5G technology not only brings new opportunities. But also new challenges. The spectacular leap in performance of 5G is achiev primarily through a sophisticate combination of different network technologies. This increases the complexity of the networks in the long term and places high Bulk Database demands on functionality assurance. Network management is becoming easier in some areas. As many components are now only software-base and run on standardize hardware. However, the number of logical levels is increasing, and these must both function perfectly on their own and harmonize seamlessly with one another to ensure smooth network operation.
Base on the latest mobile communications standard 5G NR (New Radio), which covers frequencies from < 6 to 100 GHz, 5G is base on the increase use of ultra-high frequency spectra in the millimeter wavelength range ( mmWave ). As these frequencies enable much higher transmission rates.
>Due to the shorter range and higher obstacle sensitivity of the mmWave spectrum. Highly dense multi-antenna infrastructures (Massive MIMO) are being built and the radio signals are being focus using algorithms into user-orient beams that can more easily bypass physical obstacles ( beamforming ).
