Spotlight: Shoreline Metro
公司规模
Large Corporate
地区
- America
国家
- United States
产品
- Ecolane DRT scheduling and dispatching software
- Ecolane Touch Screen MDT software
- Advanced Ecolane Reporting System
技术栈
- Scheduling Software
- Dispatching Software
- Reporting Tools
实施规模
- Enterprise-wide Deployment
影响指标
- Cost Savings
- Environmental Impact Reduction
- Productivity Improvements
技术
- 功能应用 - 车队管理系统 (FMS)
- 分析与建模 - 预测分析
- 功能应用 - 远程监控系统
适用行业
- 运输
- 城市与自治市
适用功能
- 物流运输
- 商业运营
用例
- 车队管理
- 预测性维护
- 远程资产管理
服务
- 系统集成
- 软件设计与工程服务
关于客户
Shoreline Metro is a public transportation service provider that operates in the United States. They are responsible for providing reliable and efficient transportation services to the community, ensuring that residents have access to safe and convenient travel options. With a large fleet of vehicles and a significant number of daily riders, Shoreline Metro plays a crucial role in the local transportation infrastructure. Their services are essential for reducing traffic congestion, lowering emissions, and providing an affordable means of transportation for the public. As a large organization with over 1,000 employees, Shoreline Metro is committed to continuous improvement and innovation in their operations to better serve their community.
挑战
Shoreline Metro faced several challenges that needed addressing to improve their operational efficiency and environmental impact. Firstly, they needed to gain additional control over revenue hours to optimize their service delivery. Increasing hourly ridership was another critical goal, as it would enhance the overall efficiency and effectiveness of their transportation services. Additionally, Shoreline Metro aimed to reduce their carbon footprint, which required a significant reduction in vehicle usage and emissions. Another challenge was their reliance on maintaining a high vehicle inventory, which was not cost-effective and added to their operational complexities. Lastly, they needed to streamline their data management processes to ensure accurate and timely reporting, which was essential for making informed decisions and improving service quality.
解决方案
To address these challenges, Shoreline Metro implemented several advanced solutions. They adopted the Ecolane DRT scheduling and dispatching software, which provided them with enhanced control over their scheduling and dispatching processes. This software allowed them to optimize their routes and schedules, ensuring that they could meet their service goals more efficiently. Additionally, they implemented the Ecolane Touch Screen MDT software, which improved the communication and coordination between drivers and dispatchers. This technology enabled real-time updates and streamlined the overall operation. Furthermore, Shoreline Metro utilized the Advanced Ecolane Reporting System along with an Ad-hoc reporting tool. These tools provided them with detailed and customizable reports, allowing for better data management and decision-making. The reporting system significantly reduced the time required for generating reports, enabling quicker responses to operational needs and improving overall efficiency.
运营影响
数量效益
Case Study missing?
Start adding your own!
Register with your work email and create a new case study profile for your business.
相关案例.
Case Study
Turning A Stadium Into A Smart Building
Honeywell created what it called the “intelligent system” for the National Stadium in Beijing, China, turning the venue for the opening and closing events at the 2008 Summer Olympics into a “smart building.” Designed by highly controversial artist Ai Weiwei, the “Bird’s Nest” remains one of the most impressive feats of stadium architecture in the world. The 250,000 square meter structure housed more than 100,000 athletes and spectators at a time. To accommodate such capacity, China turned to Honeywell’s EBI Integrated Building Management System to create an integrated “intelligent system” for improved building security, safety and energy efficiency.
.png)
Case Study
Smart Street Light Network (Copenhagen)
Key stakeholders are taking a comprehensive approach to rethinking smart city innovation. City leaders have collaborated through partnerships involving government, research institutions and solution providers. The Copenhagen Solutions Lab is one of the leading organizations at the forefront of this movement. By bringing together manufacturers with municipal buyers, the Copenhagen Solutions Lab has catalyzed the development and deployment of next-generation smart city innovations. Copenhagen is leveraging this unique approach to accelerate the implementation of smart city solutions. One of the primary focus areas is LED street lighting.
Case Study
Airport SCADA Systems Improve Service Levels
Modern airports are one of the busiest environments on Earth and rely on process automation equipment to ensure service operators achieve their KPIs. Increasingly airport SCADA systems are being used to control all aspects of the operation and associated facilities. This is because unplanned system downtime can cost dearly, both in terms of reduced revenues and the associated loss of customer satisfaction due to inevitable travel inconvenience and disruption.
Case Study
IoT-based Fleet Intelligence Innovation
Speed to market is precious for DRVR, a rapidly growing start-up company. With a business model dependent on reliable mobile data, managers were spending their lives trying to negotiate data roaming deals with mobile network operators in different countries. And, even then, service quality was a constant concern.
Case Study
Buoy Status Monitoring with LoRa
The Netherlands are well-known for their inland waterways, canals, sluices and of course port activities. The Dutch Ministry of Infrastructure indicates that there are thousands of buoys and fixed items in and near water environments that would profit from IoT monitoring. One of the problems with buoys for example, is that they get hit by ships and the anchor cable breaks. Without connectivity, it takes quite some time to find out that something has happened with that buoy. Not to mention the costs of renting a boat to go to the buoy to fix it. Another important issue, is that there is no real-time monitoring of the buoys at this moment. Only by physically visiting the object on the water, one gains insight in its status.
