Industry Applications Accelerate Landing, 5g ai Catalyzes IoT Transformation

5g narrowband iot

During the prevention and control of the new crown pneumonia epidemic, digital 5g narrowband iottechnology and the network economy are penetrating the entire society with unprecedented breadth and depth. As a bridge to map the physical world to the digital world, the Internet of Things (IoT) is moving from the Internet of Everything to the Internet of Everything, playing an increasingly important role in the digital and intelligent transformation of the social economy. According to the operation monitoring and coordination bureau of the Ministry of Industry and Information Technology, as of the end of March this year, China's three basic telecommunications enterprises have developed 1.52 billion cellular IoT terminal users, the scale is rapidly approaching that of cell phone users. With a large user base, rich and diverse application scenarios, and the superimposed effects of large-scale commercial deployment of 5G and accelerated popularity of artificial intelligence, China's IoT has entered a phase of rapid development. the IDC report predicts that China's IoT IP connections will reach 10.27 billion in 2025, accounting for 84% of the total number of connections in Asia Pacific (excluding Japan).

Domestic producers grasp the vast opportunities of digital China economy and 5G IoT, for smart tourism agriculture, multimedia, smart office, smart city health, smart social logistics and other scenarios to launch related products and services, to help China's domestic digital technology transformation and upgrading of various industries, while accelerating the construction of integration into the global financial market. The "2022 Qualcomm IoT Industry Innovation Research Application Blueprint Book" presents in detail Qualcomm's problem-solving solutions through diverse and leading connectivity, computing, and IoT to support our domestic manufacturers to accelerate the road to the sea.

5G+AI Catalyst for Butterfly Transformation of the Network

The presence of IoT can effectively collect data from various industries and promote the transformation of data to structured and refined, thus facilitating the integration of digital and real economy. To fully leverage the role of IoT in the information infrastructure of the digital economy, the connectivity and processing power of IoT needs to be enhanced to accommodate more terminals, process data more efficiently and cover more situations.

With 5G's high bandwidth and low latency, IoT is advancing from narrowband IoT to large bandwidth IoT, supporting data transfer speeds of 100MBu002F s. 5G's massive connectivity features can support a network of one million sensors within one square kilometer, greatly expanding the applications of IoT. Terminal-side and edge-side artificial intelligence accelerates data collection speed and processing efficiency, enabling IoT terminals to achieve a variety of intelligent functions such as automatic identification, automatic following, and real-time guidance. Wu Hequan, a member of the Chinese Academy of Engineering, points out that 5G's high bandwidth and low latency opens up the entire process from data collection to decision making, seamlessly integrating IoT with cloud computing and artificial intelligence. Meanwhile, artificial intelligence chips and operating systems can be directly embedded in 5G IoT modules to form AIoT terminals. So 5G IoT is not just a way to connect IoT, but some endogenous features of 5G make the upgrade of IoT possible.

As a wireless information technology enterprise supplier, Qualcomm has its own long-term technology continuous accumulation in the field of IoT, wireless communication engineering technology and AI development. In IoT management, Qualcomm has introduced dedicated modems, processors, SoCs and problem-solving solutions. In wireless communication system technology research, Qualcomm provides a complete and effective solution to China's solutions from modems supporting cellular networks and wide area network wireless control technologies to RF front ends; in AI, Qualcomm has introduced AI engines into mobile chips and IoT-related professional chip design products.

It is also worth noting that as the IoT expands into smart medical, home medical, live, office and other scenarios, it needs to handle more than just communication between things. It also addresses the need for users to hold and operate end devices, which means smaller and lighter end devices, and easy deployment.

For example, in the smart office space, the Nail video conferencing system introduces a speaker, camera, and microphone in a f 2 video conferencing machine with 10 meters of high-quality sound and high-definition image coverage and smart features that conference rooms and user endpoints experience at the same time, without cumbersome wiring. f2 All in one machine can perform multiple functions that cannot be achieved without Qualcomm's IoT processor which integrates dsp (digital signal processor), image processing and codec, npu and other chips. The DSP-based f2 video conferencing integrated computer enables high-speed all-around audio capture, anti-reverberation and remote audio capture and playback. The chip's image processing and encoding capabilities enable f2 to support video processing at up to 4 k, 120 frame rates. npu brings advanced features such as AI computing, support for automatic viewfinder, speaker tracking, and multi-screen auto-navigation for better participant engagement and attention.

The ease of use of devices requires a high level of integration based on the system on chip. Qualcomm's mobile chip platforms and IoT chips for IoT solutions both integrate core processors, audio and video signal processing, AI engines, modems and other components into the same chip platform in a highly integrated package to reduce the complexity of device product design and accelerate product development and speed to market.

Industry applications drive the digital economy

Industry application is one of the main driving factors for the development of IoT technology. The large-scale deployment of new rural basic education facilities of IoT needs to be combined with close contact with thousands of industries. Ministry of industry and information technology and other eight departments issued the "Internet of things new national infrastructure service facilities project construction work three-year action plan (2021-2023)" in the social environment governance, industry enterprise applications, people's livelihood consumption of three major areas of teaching focus on promoting the deployment of the Internet of things system in 12 industries, to promote the Internet of things and agriculture, manufacturing, construction, ecological security Environmental protection, cultural tourism and other industrial structures deep information integration, and promote the quality and efficiency of the cultural industry.

One of the signs of the multiplier effect of the digital economy is the shift of traditional industries that are highly dependent on human resources to an information-based, digital business model. Agriculture is one of the traditional industries with a strong reliance on human resources, suffering from a lack of intelligence and refinement, and vulnerable to pests and climate.

In Luxembourg, the outdoor iot monitoring system for farmland, introduced by International Mobile Technologies and Border Connect, uses sensors such as optical cameras, image controllers, UV sensors and smart meters to generate real-time data on temperature and humidity, light duration, soil pH and other factors affecting crop growth, as well as pump pressure, irrigation time and other equipment status. In this system, a 5 g module based on Goldfish x555g modem and RF system ensures real-time data transmission between sensor devices and between sensor devices, monitoring terminals, cloud and display terminals, enabling agricultural practitioners to access farm data via cell phones, tablets and other terminals at any time for crop yield and quality estimation and prediction.

Optimizing resource allocation is an important manifestation of the "inclusiveness" of the digital economy. Industries with uneven resource allocation, such as healthcare, especially need digital technology to improve the efficiency and experience of the entire process. Improving the overall efficiency of medical staff through information technology is an effective way to meet the growing medical needs of the people.

For example, in the most common infusion scenario, if companies manually perform verification of pharmaceuticals and patients, there is a risk of error not only in the learning efficiency level Ltd. The 5G smart city medical service terminal "Little Code Cruise2 5G-HC" launched by Dongji allows medical and nursing managers to make full use of this slim and easy-to-hold PDA data collector to scan the barcode on the infusion bag to call the patient, and also to scan the patient's handheld label to confirm his or her identity, which not only enhances the efficiency of the student work environment, but also enhances the efficiency of the student work environment. environment efficiency, but also through this two-way comparison to better safeguard the use of medication to provide security. The terminal is built-in Snapdragon 690 5G mobile Internet platform, integrated Snapdragon X51 5G modem, the use of 5G network low to millisecond delay, significantly improve the financial data collection, identification development speed, to enhance the efficiency of our health care professionals training work time at the same time continue to improve for the patient's medical experience.

In the era of digital economy, reshaping cultural consumption with digital technology is injecting energy into upgrading consumption and cultivating new consumption growth points.

Based on the "5g + 4k8k + ai" technology matrix, rtv achieved the world's first live broadcast of the 2021 Olympics on its 4k ultra HD channel in Tokyo, which was viewed 47.9 billion times on its all-media platform. Traditional live streaming relies on large equipment, such as satellite relay trucks, which often experience signal disruptions in extreme weather conditions. In the 5G era, new possibilities exist for the media and live streaming industry in terms of responsiveness and efficiency of production broadcasts. To this end, telecom and TV channel networks have introduced 5g live backpacks and 5g multi-network convergence routers. 5g's high speed, low latency and wide connectivity not only dramatically improves data collection, remote production, remote transmission capabilities and the efficiency of live news, but also brings 4k/8k and even vr-level visual experiences to a wide audience. one of Tvu's 5g live products is equipped with a goldfish grass-based x555g modem and RF system for 5g modules. According to the information, the 5g version of the tvu software has a latency of only 0.5 seconds in a real-world UHD video stream.

Support for Qualcomm's global cellular network and RF major frequency bands and transmission methods also facilitates domestic companies to explore the global market. For example, the Snapdragon X55 5G modem supports 5G millimetre wave and sub-6GHz bands, and the Qualcomm 9205 chip platform supports eMTC, the mainstream IoT wireless communication technology overseas, enabling domestic enterprises to avoid barriers such as field measurement and certification in entering overseas markets and improving global service capabilities.

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