AIR TRAFFIC CONTROL SYSTEM

Brand	Owner	Address	Description
REVAL	ADACEL TECHNOLOGIES LTD.	342 S. Road, Suite 1, Hampton, VIC 3188 Australia	Air traffic control system; Air traffic control system comprised of cameras and recorded software for controlling air traffic; Air traffic control system comprised of cameras and recorded software for remotely controlling air traffic; Recorded software for air traffic control; Air traffic control system comprised of cameras, hardware, screens, and software; remote air traffic control system comprised of cameras, hardware, screens, and software; onsite air traffic control system comprised of cameras, hardware, screens, and software; Downloadable software for air traffic management; Downloadable software for air traffic management onsite or remote; Downloadable software used in air traffic control and control of aircraft; Downloadable simulation and training software for air traffic control and management;Air traffic control services; Air traffic control consulting services; Air traffic control services, namely, air traffic control system design, development, deployment, support, maintenance, and repair;Technical consultation in the field of software engineering for air traffic control systems; providing engineering services for air traffic control systems;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A traffic control application programming interface for abstracting the use of traffic control components to client applications to provide quality of service. The traffic control interface accepts input from a client application and based on that input, communicates with the operating system to control kernel level traffic control components. The client can register with the traffic control interface, and it can open and close interfaces, add, modify, and delete flows on those interfaces, and attach or delete filters on the flows. The client can also obtain data on any currently active interface, flow, or filter. The traffic control interface will send the appropriate message to the operating system, directing that the necessary tasks be performed by either a packet scheduler or a packet classifier. Those kernel level components then return through the operating system the results of the operations requested, and that return data will be passed back to the client application.