For someone accomplishing hundreds of control system projects it is not easy to accept the fact that we have adopted most innovative solutions from business technology. Unfortunately, first a programmable calculator was produced and later after that the programmable controller (PLC) appears, first the personal computer (PC) was used to prepare invoices, and later after that SCADA was deployed on the PC. This post is about adoption of the Cloud Computing concept by the process control industry and requirements that must be fulfilled to apply safely this concept.
The cloud concept becomes more and more popular in the – we call them disdainfully – office suit, but more officially business management applications. Maybe it also could be widely adopted and will give us new arm to further improve manufacturing efficiency index including cost reduction and improve availability of utilities.
Applications are traditionally classified as:
- Business management
- Process management
Customers Relationship Management (CMS) is a business management application, but controlling a process using PLC is an example of process management. As a rule we do not try to discover relations and possibility to integrate functionality of applications like that. It is like a myth – they have nothing in common – that’s all. Really? Writing this sentence a concept of Smart Grid comes immediately into my mind, where optimization of energy consumption is located mainly on the customers’ site – energy consumers.
The above example is used to illustrate as the highly distributed measurement environment can be offered as a service.
Cloud Computing is defined as a method to provide a requested functionality as a set of services. There are many examples that cloud computing is really useful to reduce cost and increase robustness. Following the Cloud Computing idea and offering control systems as a service it is required a mechanism created on the service concept and supported abstraction and virtualization – two main pillars of the Cloud Computing paradigm.
In my opinion, it can be obtained as the result of set up this mechanism on the foundation of OPC Unified Architecture (see also OPC Unified Architecture – Main Technological Features) that is out of the box solution derived from the Service Orient Architecture principles. Therefore we can say that it is service centric solution.
Thanks to OPC UA standard we are able to abstract the process control as the OPC UA Address Space implementing selected, process oriented information model. Address Space is very useful to offer selective availability, as a means to manage the process representation and scope of its exposition to the users – OPC UA Clients.
In Cloud Computing concept the virtualization is recognized as possibility to share the services by many users. OPC UA server is a publishing mechanism exposing process data and meta-data to unlimited number of clients, and therefore it fulfills this requirement as well.
Multiuser dynamic and global environment causes a risk of unauthorized access and concerns about how cloud reliability and security could threaten manufacturing stability. Because OPC UA engages public key infrastructure – the strongest widely used authentication mechanism – the process can be protected against any cyber attack.
All the above lead to the sentence that process control community is well equipped to adopt the Cloud Computing and take advantage of new features that open new fields of applications. The only open question is if the process control community is ready to put trust on the new emerging technology.
- OPC UA eBook (www.commsvr.com)
- OPC Unified Architecture – Main Technological Features (mpostol.wordpress.com)
- OPC Books & Academic Articles ( http://www.opcfoundation.org)
- OPC Unified Architecture (mpostol.wordpress.com)
- Cloud Computing – How It Works? (techosolutions.wordpress.com)