下载PDF
For out of this World Protection, NASA Relies on WIN-911
技术
- 自动化与控制 - 可编程逻辑控制器 (PLC)
- 自动化与控制 - 监督控制和数据采集 (SCADA)
- 功能应用 - 远程监控系统
- 基础设施即服务 (IaaS) - 其他
- 传感器 - 温度传感器
适用行业
- 航天
适用功能
- 商业运营
用例
- 机器状态监测
挑战
位于俄亥俄州桑达斯基的 Plum Brook 站的航天器推进研究设施是世界上最大的太空模拟室,直径 100 英尺,飞行高度超过六层楼。在完成必要的电力、燃料、氧化剂和吹扫气体连接后,该设施在真空室内进行测试。为了在地球上重建外层空间的条件,测试设施依靠真空泵和低温系统,可以模拟低至 -423°F 的深空温度。保护科学家和工程师对于安全推进太空任务至关重要。
客户
美国国家航空航天局
关于客户
-
解决方案
可编程逻辑控制器与 SCADA 和历史软件一起使用,以控制和记录从雨淋系统启动到发动机测试点火完成和设施关闭的所有测试点火事件。 WIN-911 在测试过程中通过语音呼叫以及电子邮件和寻呼通知向 NASA 工程师提供关键警报信息。
运营影响
相关案例.
Case Study
Airbus Soars with Wearable Technology
Building an Airbus aircraft involves complex manufacturing processes consisting of thousands of moving parts. Speed and accuracy are critical to business and competitive advantage. Improvements in both would have high impact on Airbus’ bottom line. Airbus wanted to help operators reduce the complexity of assembling cabin seats and decrease the time required to complete this task.
Case Study
Aircraft Predictive Maintenance and Workflow Optimization
First, aircraft manufacturer have trouble monitoring the health of aircraft systems with health prognostics and deliver predictive maintenance insights. Second, aircraft manufacturer wants a solution that can provide an in-context advisory and align job assignments to match technician experience and expertise.
Case Study
Aerospace & Defense Case Study Airbus
For the development of its new wide-body aircraft, Airbus needed to ensure quality and consistency across all internal and external stakeholders. Airbus had many challenges including a very aggressive development schedule and the need to ramp up production quickly to satisfy their delivery commitments. The lack of communication extended design time and introduced errors that drove up costs.
Case Study
Developing Smart Tools for the Airbus Factory
Manufacturing and assembly of aircraft, which involves tens of thousands of steps that must be followed by the operators, and a single mistake in the process could cost hundreds of thousands of dollars to fix, makes the room for error very small.
Case Study
Accelerate Production for Spirit AeroSystems
The manufacture and assembly of massive fuselage assemblies and other large structures generates a river of data. In fact, the bill of materials for a single fuselage alone can be millions of rows of data. In-house production processes and testing, as well as other manufacturers and customers created data flows that overwhelmed previous processes and information systems. Spirit’s customer base had grown substantially since their 2005 divestiture from Boeing, resulting in a $41 billion backlog of orders to fill. To address this backlog, meet increased customer demands and minimize additional capital investment, the company needed a way to improve throughput in the existing operational footprint. Spirit had a requirement from customers to increase fuselage production by 30%. To accomplish this goal, Spirit needed real-time information on its value chain and workflow. However, the two terabytes of data being pulled from their SAP ECC was unmanageable and overloaded their business warehouse. It had become time-consuming and difficult to pull aggregate data, disaggregate it for the needed information and then reassemble to create a report. During the 6-8 hours it took to build a report, another work shift (they run three per day) would have already taken place, thus the report content was out-of-date before it was ever delivered. As a result, supervisors often had to rely on manual efforts to provide charts, reports and analysis.