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Transfer Protection is Essential for Spoke-Style Fixed Route Systems
技术
- 分析与建模 - 实时分析
- 功能应用 - 远程监控系统
- 网络与连接 - 蜂窝
适用行业
- 城市与自治市
- 运输
适用功能
- 商业运营
- 物流运输
用例
- 车队管理
- 实时定位系统 (RTLS)
- 远程资产管理
服务
- 软件设计与工程服务
- 系统集成
挑战
CityBus, a fixed route transit service in Lafayette, Indiana, faced significant challenges with their manual transfer methodology. The complexity of their interline system, where bus numbers change to align with new routes, caused confusion among riders and drivers. This confusion was exacerbated by the increasing city maintenance, making it difficult for dispatchers and drivers to manage transfer requests efficiently. On an average day, CityBus handled around 350 transfer requests for more than 485 riders, all recorded manually on paper. This manual process led to frequent miscommunications and inefficiencies, as drivers had to memorize requests and rely on radio communication to get vital transfer information. The lack of a streamlined system often resulted in drivers leaving too early or too late, affecting the on-time performance of the routes and causing dissatisfaction among riders.
关于客户
CityBus is a fixed route transit service operating in Lafayette, Indiana, serving city commuters and students from Purdue University West Lafayette campus and Ivy Tech. The service operates a 'spoke style' system with a central hub that connects riders to various urban and rural destinations. The newly constructed transfer hub allows 10 buses to meet every half hour in the downtown core, providing climate-controlled waiting and rest areas for riders. Melissa Baldwin, the CAD/AVL Supervisor at CityBus, played a crucial role in developing a solution to address their scheduling and transfer process problems. The primary goal of CityBus is to deliver exceptional service to their ridership, making transfer priority essential.
解决方案
In 2009, CityBus implemented TripSpark Streets Fixed Route Software, led by Melissa Baldwin. This software enabled CityBus to schedule and dispatch vehicles more efficiently and develop an overview of operations to determine optimal routes and bus stop locations. Additionally, they added the Transfer Protection module to their system, designed to integrate seamlessly with the existing Streets solution. The new system digitized and automated the transfer process, allowing requests to be made through in-vehicle MDTs (Ranger Consoles) with touchscreen displays. Messages were sent via a cellular UDP interface, connecting buses and their drivers. The system could automatically approve transfer requests or allow dispatchers to intervene if necessary. Real-time data from AVL (Automatic Vehicle Location) was pushed to the in-vehicle consoles, enabling drivers to make informed decisions about wait times. This automation significantly reduced radio traffic and improved the accuracy of transfer information, leading to better decision-making by drivers and increased rider satisfaction.
运营影响
数量效益
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