Huawei Wireless Solution Improves Rail Services
This site uses cookies. By continuing to browse the site you are agreeing to our use of cookies. Read our privacy policy>
Продукты, решения и услуги для предприятий
Смартфоны, ПК и планшеты, носимые устройства и многое другое
Shenzhen’s Metro Line 11 started operations on June 28, 2016. Line 11 is also the first rail express with a peak speed of 120 km/h, which is significantly higher than the previous five lines’ top speeds of 80 km/h. As an express line, Line 11 has a longer average inter-station distance of 2.8 kilometers than previous lines in Shenzhen. It takes 30 minutes to travel from Futian to Shenzhen Bao’an International Airport, and 1 hour to the boundary between Shenzhen and Dongguan. Currently, Line 11 is an unsurpassed city rail link in terms of length with unique construction, investment volume, and design peak speed in China. There are four elevated stations and five elevated rail segments along Line 11.
Shenzhen Metro Line 11 is a typical express line with a peak speed of 120 km/h and a total of 18 stations covering over 50 kilometers. This line functions as both the airport express and the intercity metro line. In addition, Line 11 covers diverse terrains such as elevated roads, tunnels, and flat ground. Traversing to Shenzhen Bao’an International Airport, Line 11 experiences complex electromagnetic conditions. This causes strict demands on the train-to-ground wireless network in terms of mobility, reliability, and anti-interference capability. The metro train-to-ground wireless network provides large-bandwidth services such as onboard video security, passenger information delivery, and advertisement pushes. It is an important metro subsystem to provide value-added services and improve passenger experiences.
Wireless Local Area Network (WLAN) technologies are universally applied to traditional train-to-ground wireless network solutions. However, the Communication-Based Train Control (CBTC) system uses WLAN technologies to operate on the public frequency band of 2.4 GHz with insufficient available frequencies. This makes it extremely complicated to plan, design, and deploy WLANs. Metro lines using traditional solutions have numerous track-side Access Points (APs), which cause high transmit power and dense interference. Additionally, the prevalence of operators’ 3G and 4G networks exponentially increases the number of mobile phone Wi-Fi hot spots. This deteriorates the operating environment for WLANs and affects the operational safety and efficiency of metro trains.
To resolve the challenges for Shenzhen Metro Line 11, Huawei offers the eLTE train-to-ground Wireless Communications Solution with the following features:
Moreover, during the construction of Shenzhen Metro Line 11, implementation of the LTE train-to-ground wireless solution encountered complex environments, tight delivery schedule, and other difficulties. With extensive delivery experience in the railway industry and supportive delivery team, Huawei provides Shenzhen metro with end-to-end LTE solutions.
With rapid growing urban rail transit and continuously emerging high-speed lines around the world, Huawei will further optimize its rail transit solutions. By working with industry partners, Huawei intends to develop increasingly solid and reliable train-to-ground wireless solutions for rail transit systems to enhance overall rail transit operational capabilities. The systems include CBTC, Passenger Information System (PIS), and Closed-Circuit Television (CCTV) for multiple transit methods such as metro, light rail, tram, and inter-city express.