The New York City Metropolitan Transportation Authority (MTA) has partnered with Google for a groundbreaking pilot project designed to enhance the dependability of its outdated subway network. Utilizing Google’s smartphone technology, this initiative aims to detect and resolve track problems proactively to prevent service interruptions. Called “TrackInspect,” the program marks a major advancement in incorporating artificial intelligence and contemporary technology into public transportation.
Beginning in September 2024 and wrapping up in January 2025, the pilot project involved equipping certain subway cars with Google Pixel smartphones. These phones were responsible for gathering sound and vibration information to identify possible track issues. This data was subsequently evaluated by Google’s AI systems in the cloud, which identified zones that needed further examination by MTA staff.
“By spotting initial indicators of track deterioration, we not only cut down on maintenance expenses but also lessen inconveniences for passengers,” stated Demetrius Crichlow, president of New York City Transit, in an announcement made public in late February.
“By identifying early signs of track wear and tear, we not only reduce maintenance costs but also minimize disruptions for riders,” said Demetrius Crichlow, president of New York City Transit, in a statement released in late February.
Addressing delays using AI and smartphones
Subway delays continue to be a constant issue for those traveling in New York City. Towards the end of 2024, the MTA documented tens of thousands of delays monthly, with numbers surpassing 40,000 in just December. These interruptions stem from numerous causes, such as track flaws, construction activities, and shortages of crew members.
El programa TrackInspect se centra en abordar un aspecto crucial del problema: detectar y solucionar problemas mecánicos antes de que se agraven. Durante la prueba piloto, se instalaron seis teléfonos Google Pixel en cuatro vagones R46 del metro, reconocidos por sus asientos de color naranja y amarillo. Los dispositivos registraron 335 millones de lecturas de sensores, más de un millón de datos de GPS y 1,200 horas de audio.
Los teléfonos inteligentes se colocaron estratégicamente tanto dentro como debajo de los vagones del metro. Los dispositivos externos estaban equipados con micrófonos para captar sonidos y vibraciones, mientras que los internos tenían los micrófonos desactivados para evitar grabar conversaciones de los pasajeros. En cambio, estos dispositivos se concentraban únicamente en las vibraciones para identificar anomalías en las vías.
Rob Sarno, serving as an assistant chief track officer for the MTA, was integral to the project. His duties involved examining audio clips that the AI system flagged for potential track issues. “The system pinpoints zones with unusual decibel levels, possibly signaling loose joints, damaged rails, or other defects,” Sarno elaborated.
La línea de tren A, seleccionada para el piloto, presentó un entorno de prueba variado con vías tanto subterráneas como elevadas. Además, incluyó segmentos de infraestructura recientemente construida, ofreciendo un punto de referencia para comparaciones. Aunque no todos los retrasos en la línea A se deben a problemas mecánicos, los datos recopilados durante el programa piloto podrían contribuir a resolver problemas recurrentes y mejorar el servicio en general.
The A train line, chosen for the pilot, offered a diverse testing environment with both underground and above-ground tracks. It also included sections of recently constructed infrastructure, providing a baseline for comparison. While not all delays on the A line are caused by mechanical issues, the data captured during the pilot could help address recurring problems and improve overall service.
Promising results but hurdles remain
El programa también incorporó una herramienta impulsada por inteligencia artificial basada en el modelo Gemini de Google, que permitía a los inspectores hacer preguntas sobre protocolos de mantenimiento e historial de reparaciones. Esta inteligencia artificial conversacional ofrecía a los inspectores información clara y útil, lo que facilitaba aún más el proceso de mantenimiento.
The program also included an AI-powered tool based on Google’s Gemini model, which allowed inspectors to ask questions about maintenance protocols and repair history. This conversational AI provided inspectors with clear, actionable insights, further streamlining the maintenance process.
Despite its success, the pilot program raises questions about scalability and cost. The MTA has not disclosed how much it would cost to implement TrackInspect across its entire subway system, which includes 472 stations and serves over one billion riders annually. The agency is already grappling with financial challenges, needing billions of dollars to complete existing infrastructure projects.
An increasing trend in transit advancement
La colaboración de Nueva York con Google forma parte de una tendencia más amplia en la que ciudades de todo el mundo están adoptando inteligencia artificial y tecnologías inteligentes para mejorar los sistemas de transporte público. Por ejemplo, New Jersey Transit ha utilizado IA para analizar el flujo de pasajeros y la gestión de multitudes, mientras que la Autoridad de Tránsito de Chicago ha implementado medidas de seguridad basadas en IA para detectar armas. En Pekín, se ha introducido la tecnología de reconocimiento facial como alternativa a los boletos de transporte tradicionales, disminuyendo los tiempos de espera en horas pico.
Google ya ha colaborado anteriormente con otras agencias de transporte. El gigante tecnológico ha creado herramientas para optimizar la programación de Amtrak y se ha aliado con proveedores de tecnología de estacionamiento para integrar datos de aparcamiento en la calle en Google Maps. No obstante, la envergadura y complejidad del sistema de metro de Nueva York hace que este proyecto sea especialmente ambicioso.
The MTA operates the largest subway network in the United States, offering 24-hour service on numerous lines. This continuous operation introduces additional complexity to maintenance tasks, as repairs and upgrades frequently have to be performed alongside active service. Employing AI and smartphone technology, the TrackInspect program might assist the MTA in tackling these challenges more effectively.
Looking forward
Although the TrackInspect pilot has concluded, the MTA is investigating collaborations with additional technology providers to further improve its maintenance procedures. The agency is also evaluating data from the pilot to assess its effects on minimizing delays and enhancing service. Initial signs indicate that specific types of delays, including those from braking problems and track defects, declined on the A line during the pilot. However, the MTA warns that more analysis is required to verify a direct connection to the program.
While the TrackInspect pilot has ended, the MTA is exploring partnerships with other technology providers to further enhance its maintenance processes. The agency is also analyzing data from the pilot to determine its impact on reducing delays and improving service. Early indications suggest that certain types of delays, such as those caused by braking issues and track defects, decreased on the A line during the pilot period. However, the MTA cautions that further analysis is needed to confirm a direct link to the program.
Reflecting on the project, Sarno highlights the promise of AI-driven solutions to revolutionize public transit. “This technology enables us to identify issues sooner, act more swiftly, and ultimately offer improved service to our passengers,” he stated.
As Sarno reflects on the project, he emphasizes the potential of AI-driven solutions to transform public transportation. “This technology allows us to detect problems earlier, respond faster, and ultimately provide better service to our customers,” he said.
The MTA’s collaboration with Google underscores the potential of public-private partnerships to drive innovation in critical infrastructure. Whether TrackInspect becomes a permanent fixture in New York’s subway system remains to be seen, but its success highlights the possibilities of integrating cutting-edge technology into the daily lives of commuters.
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