Public Transit
Public transportation is a major service that cities offer to connect people to the city’s different neighborhoods and resources, including access to employment, recreational facilities, essential services, and more. Smart public transportation plays an important role in reducing pollution and traffic congestion and improving the daily lives of citizens.
Applications and Solutions: Real time public transit information
Real time public transit information can reduce wait times, travel times, and increase transit use as a result of customers being enabled to make travel plans based on accurate information. Municipalities can use information systems to collect data about traffic and vehicles, mobile apps and new transportation solutions such as low emission vehicles to inform strategic decisions and improve citizen’s overall quality of life.
Technologies
GPS sensors in busses – GPS devices on-board busses can be used to inform smart phone apps about how to plan their routes and can also connect to traffic sensors or smart traffic lights to respond to approaching busses to help the flow of traffic.
Real time public transit information – Real-time transit data can include any information collected about the current status of vehicles which typically relies on GPS to provide predictive arrival and departure information. This real-time data can be used to send text/email alerts about route detours or delays and be integrated into mobile apps and dynamic messaging signs.
Smart phone app for users and route planner – Smart phone apps with real-time bus location information lets users plan trips that minimizes wait times and missed connections. Apps can be a one-stop shop to set bus arrival reminders and get all bus information including schedules, delays, stops, and announcements.
Tap card applications for smart phone payment – Transit fare payment can be made through account-based smart phone applications in which users can purchase bus passes, top up accounts, auto-reload accounts, and transfer balances from lost cards. These apps are paired with card reader where users will tap their phone to pay.
Digital public transit payment – Digital or mobile ticketing allows passengers to buy and display their tickets using their mobile device. Similar to the tap card apps for fare payment, digital payment apps can let users purchase bus passes and top up accounts.
Demand-based microtransit – Demand-based microtransit is a service that offers flexible routing, stops, and scheduling based on demand. Customers can use request a microtransit service through a mobile app that allows for fare payment, trip planning, and operator requests. The service typically uses smaller vehicles like shuttle busses.
E-hailing – E-hailing is a process of ordering a vehicle pick up through a mobile device using GPS technology. Although primarily used for private ride-hailing such as Uber and Lyft, the concept can also be applied to public transportation with demand-based microtransit.
Low emission vehicles – Electric and hybrid busses can be used to as an environmentally friendly and quieter option on the road. Existing bus fleets can be converted to be hybrid electric vehicles to reduce greenhouse gas emissions and energy consumption. These low emission vehicles will require charging systems, which can have quick charge or slower overnight charge options. Another option is hydrogen-powered busses that
Autonomous shuttles – These vehicles navigate autonomously in lower speed roads along predetermined, learned paths in areas such as industrial campuses, suburbs and city centers. Some existing models use Light Detection and Ranging technology (LiDARs), inertial measurement unit (IMU), cameras, GPS, and motion sensors.
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