Table of contents
2. The mode of Starlight Technology
3. Six advantages of Xingshan Technology
1. Introduction to Starlight
Starlight NearLink is a new generation of short-distance wireless connection technology launched by the NearLink Alliance led by China Academy of Information and Communications Technology. The Star Alliance is an open cooperation platform composed of national standard research institutions, industry leaders, and industry chain partners. At present, nearly a hundred large Internet and intranet companies such as Huawei, China Mobile, Hikvision, BOE, and ZTE have joined.
2. The mode of Starlight Technology
Starlight NearLink technology has two modes: SLE and MLE.
SLE mode (Smart Link Enhanced): mainly for scenarios with low power consumption, low latency, and high reliability, such as wireless headsets, mice, and car keys.
MLE mode (Multi Link Enhanced): mainly for high-speed, high-capacity, and high-precision scenarios, such as video transmission, large file sharing, and precise positioning.
3. Six advantages of Xingshan Technology
Transmission speed : In Starlight SLE mode, the air interface bit rate can reach 12Mbps, which is 6 times that of Bluetooth; in Starlight MLE mode, the air interface bit rate can reach 1.2Gbps, which is twice that of Wi-Fi. This shows that Starlight technology can enable wireless headphones to achieve lossless sound quality, enable video transmission to achieve high-definition picture quality, and enable file sharing to achieve instant transmission experience.
Transmission delay : In Starlight SLE mode, the delay can be reduced to 1ms, which is one-tenth of Bluetooth; in Starlight MLE mode, the delay can be reduced to 10ms, which is one-tenth of Wi-Fi. Starlight technology allows the wireless mouse to achieve a rate of return of 4000Hz, making game operations smoother; allowing video calls to achieve millisecond-level synchronization, making communication smoother.
Anti-interference ability : In Starlight SLE mode, the anti-interference ability is 7dB higher than Bluetooth; in Starlight MLE mode, the anti-interference ability is 10dB higher than Wi-Fi. The Starlight technology can keep the wireless connection stable even in an environment with many people and complex signals, and there will be almost no interruptions or stuttering.
Signal coverage : In Starlight SLE mode, the coverage distance is twice that of Bluetooth; in Starlight MLE mode, the coverage distance is four times that of Wi-Fi. Starlight technology allows wireless connections to be realized in a larger space, greatly improving the security and reliability of connections and reducing the cost of communication equipment (routers, etc.).
Positioning ability : In the Starlight SLE mode, the positioning accuracy can reach the decimeter level; in the Starlight MLE mode, the positioning accuracy can reach the centimeter level. Starlight technology greatly improves the accuracy of ranging and positioning, providing more possibilities for smart homes, smart cars and other scenarios.
Network scale : In SLE mode, each gateway supports 1000 devices; in MLE mode, each gateway can connect 100 devices. Starlight technology enables wireless connections to support more device access and interaction, creating a more powerful ecosystem for the Internet of Everything.
4. Application scenarios
smart car
Starlight technology enables high-speed, high-capacity, low-latency, and high-precision connections and interactions between cars and mobile phones, car keys, and on-board equipment. For example, users can realize functions such as wireless unlocking, starting, and parking through mobile phones or car keys; they can also realize functions such as navigation, entertainment, and security through mobile phones or vehicle-mounted devices.
smart industry
Starlight technology enables industrial robots, sensors, and controllers to achieve high-speed, high-capacity, low-latency, and high-reliability connections and collaborations. For example, users can remotely monitor and control the operating status and data of industrial equipment through mobile phones or tablets; they can also use Starlight technology to realize collaboration between equipment, such as realizing accurate positioning and ranging, and improving production efficiency and quality.
smart wear
Starlight technology enables wearable devices such as smart watches, smart bracelets, and wireless earphones to achieve low power consumption, low latency, and high reliability connection and synchronization. For example, users can control wireless headphones to play music, answer calls and other functions through smart watches; they can also monitor health data such as heart rate and blood pressure through smart bracelets, and synchronize them with mobile phones.
smart home
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Intelligent Terminal
Starlight technology enables high-speed, high-capacity, low-latency, and low-power data transmission and information interaction between terminals such as smartphones, tablets, and notebooks. For example, users can quickly share files, videos, pictures and other content between different terminals through one-touch transmission; they can also easily switch screen displays between different terminals through one-click screen projection.
