Plant View Overland is a Company-Oriented supervision system, or rather a system designed to take into account the requirements of a service company for the management of utilities distribution networks. With Plant View Overland, the problems related to the location in the region of multiple operation centres, often equipped with different RTUs, and connected with various methods of transmission and communication protocols, are resolved in a homogeneous context, where all information is usable for its content in an absolutely transparent manner. Furthermore, the classic functions of the SCADA systems are distributed on a homogeneous platform which integrates the various company activities into a single synergic context.The Company Divisions to which Plant View Overland should be brought to attention are:Operations Room, Management of Maintenance and Emergency Teams,Company management, Technological Services. Plant View Overland SCADA makes advanced functions available which allow for: Multi-media communication: The system can initiate a dialogue with all available communication standards: PSTN, GSM, GPRS, ADSL, TCP/IP, Radio, Wi-Fi, etc. Extensive availability of communication protocols: There is a vast range of communication protocols available for the devices of the most important players in the sector. Moreover, Fast even develops protocols at the request of the client. Management of persons available: The system allows for an advanced management for calls to those available, with the possibility of sending SMS and/or voice summary. Able to be integrated with existing systems: Thanks to the use of the standard OPC, the system integrates with any other SCADA systems present. WEB interoperability: Thanks to the Web Client function, the information is distributed via Web. Reliability and Availability: The system is fault tolerant, thanks to the management of redundancy with hot-backup. Security: User and password management protects the system from unauthorised access. Scalability: It is possible to start with a reduced architecture and then expand the implementation of the system in successive phases. Engineering oriented to the type of distributed plants: The configuration of peripherals and their integration uses an advanced model methodology based on a high level of internal automation.