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5G mmWave Networks for Public Transit Systems

Enable unmatched wireless connectivity in metro, local trains and public transportation to revolutionize the commuter experience and enhance operational efficiency.

Transforming urban mobility with next-generation connectivity

Modern public transit systems face mounting pressures to move millions efficiently while ensuring safety and comfort. Traditional networks struggle with the demands of subway and train operations, from passenger connectivity to real-time monitoring. High-speed, reliable, low-latency connectivity is crucial for seamless internet access, operational optimization, and advanced information systems in these challenging environments.

Four pillars of operational excellence in public transit systems:

Seamless Passenger Connectivity

High-speed, uninterrupted internet access throughout the journey is crucial. Modern commuters expect to stream, work remotely, and use social media without interruption, even in underground tunnels or on fast-moving trains.

Real-Time Operational Efficiency

Transit systems require real-time data processing and communication to optimize schedules, manage traffic flow, and respond to disruptions. Near-zero latency is essential for coordinating train movements and ensuring smooth operations.

Ensuring Safety and Security

Protecting passengers and infrastructure demands advanced AI-enabled surveillance systems and emergency response capabilities. High-bandwidth, low-latency networks allow for real-time monitoring and instant communication during critical situations.

Smart Infrastructure Management

IoT devices and sensors throughout the transit system generate vast amounts of data. Real-time processing allows for predictive maintenance, energy optimization, and the creation of adaptive, intelligent transportation networks.

Microamp 5G mmWave - the ultimate transit connectivity solution

Microamp 5G mmWave Network for Public Transit Systems

In public transit scenarios, Microamp 5G mmWave can be deployed in public transport hubs such as local train stations, subway platforms, or bus stations.

Due to the small form factor and tunnel-optimized signal, radios can be installed in subway tunnels, providing uninterrupted, multi-gig connectivity for passengers in the form of a Wi-Fi signal, even during peak hours. Microamp 5G mmWave can also be used to manage autonomous transportation (trains and buses) and secure real-time data flow between command centers and elements of the transport grid.

How does the Microamp 5G mmWave solve the biggest public transit challenges?

Problem
Limited connectivity in underground environments
Public mobile networks struggle to provide consistent coverage in subway tunnels and stations, leading to poor passenger connectivity and operational blind spots.
Solution
Tunnel-optimized 5G mmWave
Microamp's 5G mmWave technology leverages directional nature of tunnels, providing robust connectivity throughout the underground network for passengers and operators.
Problem
High-density usage spikes
During peak hours, thousands of commuters accessing the network simultaneously can lead to severe congestion, and degrading service for passengers and critical systems.
Solution
Ultra-high capacity and low latency
Our multi-gigabit networks handle extreme data throughput, ensuring seamless operation for both passenger devices and critical applications, even during peak hours.
Problem
Real-time operational data processing
Transit systems generate vast amounts of data from trains, stations, and passenger flows. Processing this data in real-time for effective decision-making is challenging with existing networks.
Solution
Real-time AI reasoning
Microamp's 5G mmWave enables instant data processing and AI-driven analytics to optimize operations and enhance passenger safety in real time.
Problem
Inflexible infrastructure
Traditional network infrastructure is often rigid and costly to modify, making it difficult to adapt to changing transit patterns or expand coverage to new areas.
Solution
Agile and scalable network deployment
Our 5G mmWave solutions can be rapidly deployed and easily reconfigured, allowing quick adaptation to changing needs or coverage expansion.
Problem
Need for rapid emergency response
In emergencies, reliable and instantaneous communication is crucial, but often compromised due to network congestion or coverage gaps in complex transit environments.
Solution
Dedicated emergency communication channels
Independent and reliable network where critical data is transmitted without delay, even in high-traffic or challenging environments.
Problem
Narrow and hard-to-access areas
In public transit scenarios, infrastructure often has to be installed in narrow or bent, tunnel-like locations or multi-story underground areas.
Solution
Portability and small form factor
With small form-factor 5G mmWave radios and distributed architecture, our networks are portable and can be installed in hard-to-access areas, such as metro tunnels.
Problem
Limited connectivity in underground environments
Public mobile networks struggle to provide consistent coverage in subway tunnels and stations, leading to poor passenger connectivity and operational blind spots.
Solution
Tunnel-optimized 5G mmWave
Microamp's 5G mmWave technology leverages directional nature of tunnels, providing robust connectivity throughout the underground network for passengers and operators.
Problem
Real-time operational data processing
Transit systems generate vast amounts of data from trains, stations, and passenger flows. Processing this data in real-time for effective decision-making is challenging with existing networks.
Solution
Real-time AI reasoning
Microamp's 5G mmWave enables instant data processing and AI-driven analytics to optimize operations and enhance passenger safety in real time.
Problem
Need for rapid emergency response
In emergencies, reliable and instantaneous communication is crucial, but often compromised due to network congestion or coverage gaps in complex transit environments.
Solution
Dedicated emergency communication channels
Independent and reliable network where critical data is transmitted without delay, even in high-traffic or challenging environments.
Problem
High-density usage spikes
During peak hours, thousands of commuters accessing the network simultaneously can lead to severe congestion, and degrading service for passengers and critical systems.
Solution
Ultra-high capacity and low latency
Our multi-gigabit networks handle extreme data throughput, ensuring seamless operation for both passenger devices and critical applications, even during peak hours.
Problem
Inflexible infrastructure
Traditional network infrastructure is often rigid and costly to modify, making it difficult to adapt to changing transit patterns or expand coverage to new areas.
Solution
Agile and scalable network deployment
Our 5G mmWave solutions can be rapidly deployed and easily reconfigured, allowing quick adaptation to changing needs or coverage expansion.
Problem
Narrow and hard-to-access areas
In public transit scenarios, infrastructure often has to be installed in narrow or bent, tunnel-like locations or multi-story underground areas.
Solution
Portability and small form factor
With small form-factor 5G mmWave radios and distributed architecture, our networks are portable and can be installed in hard-to-access areas, such as metro tunnels.
Problem
Limited connectivity in underground environments
Public mobile networks struggle to provide consistent coverage in subway tunnels and stations, leading to poor passenger connectivity and operational blind spots.
Solution
Tunnel-optimized 5G mmWave
Microamp's 5G mmWave technology leverages directional nature of tunnels, providing robust connectivity throughout the underground network for passengers and operators.
Problem
Inflexible infrastructure
Traditional network infrastructure is often rigid and costly to modify, making it difficult to adapt to changing transit patterns or expand coverage to new areas.
Solution
Agile and scalable network deployment
Our 5G mmWave solutions can be rapidly deployed and easily reconfigured, allowing quick adaptation to changing needs or coverage expansion.
Problem
High-density usage spikes
During peak hours, thousands of commuters accessing the network simultaneously can lead to severe congestion, and degrading service for passengers and critical systems.
Solution
Ultra-high capacity and low latency
Our multi-gigabit networks handle extreme data throughput, ensuring seamless operation for both passenger devices and critical applications, even during peak hours.
Problem
Need for rapid emergency response
In emergencies, reliable and instantaneous communication is crucial, but often compromised due to network congestion or coverage gaps in complex transit environments.
Solution
Dedicated emergency communication channels
Independent and reliable network where critical data is transmitted without delay, even in high-traffic or challenging environments.
Problem
Real-time operational data processing
Transit systems generate vast amounts of data from trains, stations, and passenger flows. Processing this data in real-time for effective decision-making is challenging with existing networks.
Solution
Real-time AI reasoning
Microamp's 5G mmWave enables instant data processing and AI-driven analytics to optimize operations and enhance passenger safety in real time.
Problem
Narrow and hard-to-access areas
In public transit scenarios, infrastructure often has to be installed in narrow or bent, tunnel-like locations or multi-story underground areas.
Solution
Portability and small form factor
With small form-factor 5G mmWave radios and distributed architecture, our networks are portable and can be installed in hard-to-access areas, such as metro tunnels.

Use cases for public transit systems

High-Speed Internet Connection for Passengers

Real-Time Video Surveillance and AI Analytics

AI-Driven Predictive Maintenance

Enhanced Passenger Information Systems

Real-Time Traffic Flow Management

Emergency Response Coordination

Autonomous Ground Transportation Systems

IoT-Based Train and Station Management

Bring 5G mmWave connectivity to public transit system.

Order Microamp 5G mmWave Starter Kit

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