The best way to know NALA is to compare our PSN-EVC System with the human neural system – a biological network composed of many highly interconnected processing elements, the neurons, working together in parallel to serve specific functions. Alike, our PSN Controllers powered by NALA technology are also interconnected into a network to receive, process, monitor and communicate data with other controllers and terminals to accomplish the smart control of electrical power.
Both the PSN-EVC System and the human neural system are self-organizing, autonomous, reacting in real-time and fault tolerant by redundancy. It means that partial failure will not destroy or disable the whole system.
A neural network can learn by example. In the PSN-EVC System, configurations and scenarios are automatically shared through the controller network in which same-feature scenario controls can be mapped repetitively across varying charging points regardless of the brands of charger. It also supports direct mapping of architectural design into interior scenario.
Peer to peer controllers. No central computer.
No central processing unit or overall system collapse.
Distributed data storage. Extremely stable and reliable.
Apply IOT3 technology to achieve automated, self-managed networking of NANC units upon installation and setup. Enjoy IOT benefits like scheduling, metering.
The link array resembles the neurons of human body. DS neutral connection concept. Every node in the network can be extended to a sensor or power control point. Interactive controllers are autonomous and self-organized.
Anywhere in a NALA network, charging points are scalable for future expansion. No upgrade, enhancement or replacement of existing electrical installation is required for the addition of charging points.
Patented auto-addressing. Patented smart power sensing and identification technology. System so fully automated that only the least extent of human regulation and intervention is needed. Allow easy adjustment by users.