公司规模
Large Corporate
地区
- Europe
国家
- France
产品
- Versant Object Database
技术栈
- UsiXML
- XML
- JAVA
- C++
- Python
- Smalltalk
实施规模
- Enterprise-wide Deployment
影响指标
- Productivity Improvements
- Innovation Output
技术
- 应用基础设施与中间件 - 数据库管理和存储
- 应用基础设施与中间件 - 中间件、SDK 和库
适用行业
- 海洋与航运
- 国家安全与国防
适用功能
- 产品研发
- 质量保证
用例
- 过程控制与优化
- 计算机视觉
服务
- 软件设计与工程服务
- 系统集成
关于客户
Telecom Bretagne is one of the most prestigious graduate engineering schools in France under the aegis of the Ministry for Industry. It is responsible for developing a French validator and demonstrator system for the UsiXML project relying on the European Maritime Surveillance Framework. Every day tens of thousands of activities take place at sea in Europe, and every day these activities must be monitored to ensure safety. The European Maritime Surveillance Framework has to integrate various autonomous surveillance applications, tactile surfaces, and sensor systems – including maritime search and rescue, traffic monitoring, fishing inspections, or maritime border surveillance.
挑战
Telecom Bretagne, a prestigious graduate engineering school in France, was tasked with developing a French validator and demonstrator system for the UsiXML project, which is based on the European Maritime Surveillance project. The challenge was to develop a database technology that could provide both the objects of the simulation and the operational information captured during the experimental or effective mission. The system needed to integrate various autonomous surveillance applications, tactile surfaces, and sensor systems, including maritime search and rescue, traffic monitoring, fishing inspections, and maritime border surveillance.
解决方案
The solution was the Versant Object Database, which provides fast navigational access and high performance when storing and retrieving complex simulation data. The database technology provides numerous language APIs, and object-oriented applications, whether written in Smalltalk, Python, JAVA, and C++, can share a common set of structured objects. The simulation environment was built around the Versant Object Database, which is used to provide both the objects of the simulation and the operational information captured during the experimental or effective mission. The UsiXML partners developed a new XML-compliant User Interface Description Language (UIDL) on top of the existing UsiXML and IDEAL 2.0 standards.
运营影响
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
Drill ship power challenge: hybrid solution solves distribution issues
Aspin Kemp & Associates (AKA), a manufacturer of electrical power and control systems headquartered in Montague, PEI, encountered one with its hybrid power initiative, the first hybrid drill floor destined for installation on ultra-deepwater drill ships operated by Transocean, Swiss offshore drilling contractors. Since on-site modification was impossible and scrap recycling of any modifications was unacceptable, the enclosures had to arrive ready-to-install.
Case Study
Data Capture for Afghanistan Forces
Electronic equipments on the field of Afghanistan provided information on the status of the vehicle and to identify potential threats surrounding it to the British Force. The monitoring and interpretation of this data requires robust and sophisticated digitization for data capture and communication.
Case Study
Ensures Tanker Safety and Emissions Compliance
Storage tanks are irregular in shape and a certain amount of mathematical modelling is required to get an accurate representation of volume and, more importantly, the weight of material in each tank. In addition, countries have different emission regulations, so the ships position needed to be accurately known in order to geotag emission data.
Case Study
Real-time Networked Sonar System for Ships
A multinational, knowledge-based corporation that delivers marine electronics solutions is utilizing industrial Ethernet technology to help ensure that operations at sea are dependable and optimal. Based in Europe, the company has nearly 4000 employees working in 20 countries around the world, and produces high-tech systems for offshore oil and gas operations, merchant marine systems, and various applications for the defense and aerospace industries. The company produces products and systems used by merchant vessels and offshore installations for positioning, navigation, automation, as well as for surveying and monitoring the seabed, and for fishing vessels and fi sheries research. As one of the major suppliers of high quality marine electronics in the world, their products include chart plotters for yachts, triple redundant dynamic positioning systems for oil drilling rigs, and sonar and instrument systems for scientifi c research vessels. Products used for marine applications must be rugged enough to endure the corrosive effects of salt water, and be able to withstand excessive amounts of vibration and shock. For this reason, the company only uses DNV and GL certified products and components to ensure that their systems can meet the high standards required by the maritime industry.
Case Study
Fleet Management Connectivity Solution for Marzam
Marzam, in order to ensure the best service, invested 3 million dollars in the construction of 2 fuel oil tanks with 40k gallons and 10k gallons capacity each, located in Manta, Ecuador. The customer needs to keep fleet operations going with fuel available at all times in order to guarantee quality of service. KEY ELEMENTS FOR THE CUSTOMER: Real-time level monitoring: Tank infrastructure remote level monitoring. Configure alerts and notifications when reaching critical values to avoid the need for emergency refills and optimize supply schedules. Real-time consumption monitoring: The customer needed an easy way to monitor in real-time accurate values of consumption.
Case Study
Major Aerospace Company Automates Asset Management
The O&M division of an aerospace and global security company was using spreadsheets to manually track more than 3,000 assets assigned to students and staff. Maintaining audit trails for this high volume of equipment became increasingly time-consuming and challenging. The chore involved knowing precisely what equipment was on hand, what had been issued, its location and the name of the custodial owner of each item. Every aspect of this task was carried owner of each item. Every aspect of this task was carried out by individuals with spreadsheets. Manually documenting the full lifecycle of each asset added to the burden. This included tracking maintenance requirements and records, incidents and damages, repairs, calibrations, depreciation, and end-of-life data.