下载PDF
the Cloud-Based Open- Operating Platform Powering the Future of the IoT
技术
- 平台即服务 (PaaS) - 连接平台
- 平台即服务 (PaaS) - 设备管理平台
适用行业
- 电子产品
适用功能
- 离散制造
- 产品研发
用例
- 预测性维护
- 自动化制造系统
- 供应链可见性(SCV)
服务
- 云规划/设计/实施服务
- 系统集成
挑战
The company, a global industrial powerhouse, wanted to embrace the Internet of Things (IoT) to drive advances in high-end manufacturing. However, the early versions of its open IoT platform had limited integration capabilities and could only connect their own products. It was impossible to import application data into the IoT platform or to export results into applications. The company wanted to transform its platform into a driver of key digital services business by harnessing data from other manufacturers’ products.
关于客户
The customer is a global industrial powerhouse and one of the world’s largest producers of energy-efficient, resource-saving technologies. It is a leading supplier of systems for power generation and transmission as well as medical diagnosis. The company operates in more than 190 countries, employs more than 300,000 people worldwide, and reports billions in annual global revenue. For nearly 200 years, this industrial manufacturing conglomerate has been at the forefront of technological change—a role it continues to embrace in the midst of today’s big data revolution. With its cloud-based open-operating Internet of Things (IoT) platform, the company seeks to revolutionize the way its customers harness data to improve the performance of products, plants, systems and machines.
解决方案
The company partnered with Software AG to create a pair of products. The first, an on-premises enterprise system integration solution (white labeled webMethods Integration Cloud), simplified the integration of application data into the IoT platform, adding the ability to combine machine data with data from virtually any application, on-premises or in the cloud. The second, an IoT connectivity layer (white labeled Cumulocity IoT), extended the range of IoT devices, combining device identity, asset and software management, and allowed for the use of customizable software agents on other custom devices. Together, these products formed the backbone of enhancements released as part of the IoT platform’s third version, which launched in early 2018. Integrating Software AG’s platforms enabled this global manufacturer to close major architectural gaps in device connectivity and management.
运营影响
数量效益
相关案例.
Case Study
Remote Temperature Monitoring of Perishable Goods Saves Money
RMONI was facing temperature monitoring challenges in a cold chain business. A cold chain must be established and maintained to ensure goods have been properly refrigerated during every step of the process, making temperature monitoring a critical business function. Manual registration practice can be very costly, labor intensive and prone to mistakes.
Case Study
Cloud Solution for Energy Management Platform-Schneider Electric
Schneider Electric required a cloud solution for its energy management platform to manage high computational operations, which were essential for catering to client requirements. As the business involves storage and analysis of huge amounts of data, the company also needed a convenient and scalable storage solution to facilitate operations efficiently.
Case Study
Leveraging the IoT to Gain a Competitive Edge in International Competition
Many large manufacturers in and outside Japan are competing for larger market share in the same space, expecting a growing demand for projectors in the areas of entertainment, which requires glamor and strong visual performance as well as digital signage that can attract people’s attention. “It is becoming more and more difficult to differentiate ourselves with stand-alone hardware products,” says Kazuyuki Kitagawa, Director of Service & Support at Panasonic AVC Networks. “In order for Panasonic to grow market share and overall business, it is essential for us to develop solutions that deliver significant added value.” Panasonic believes projection failure and quality deterioration should never happen. This is what and has driven them to make their projectors IoT-enabled. More specifically, Panasonic has developed a system that collects data from projectors, visualizes detailed operational statuses, and predicts issues and address them before failure occurs. Their projectors are embedded with a variety of sensors that measure power supply, voltage, video input/ output signals, intake/exhaust air temperatures, cooling fan operations, and light bulb operating time. These sensors have been used to make the projector more intelligent, automatically suspending operation when the temperature rises excessively, and automatically switching light bulbs. Although this was a great first step, Panasonic projectors were still not equipped with any capability to send the data over a network.