Patent application number | Description | Published |
20090006526 | Autonomic control of a distributed computing system using finite state machines - In general, this disclosure describes techniques of managing resources in a service-oriented distributed computing system. As described in this disclosure, one or more control nodes provide for the efficient and automated allocation and management of resources within the distributed computing system. In order to provide automated allocation and management of computing functions and resources, a control node uses a set of governors. This set of governors includes a set of service governors to govern services used in the distributed computing system. The set of governors also includes a set of resource governors that govern individual resources of the services in the distributed computing system. The service governors and the resource governors may be implemented using finite state machines. | 01-01-2009 |
20090006527 | Autonomic control of a distributed computing system using dynamically assembled resource chains - In general, this disclosure describes techniques of managing resources in a service-oriented distributed computing system. As described in this disclosure, one or more control nodes provide for the efficient and automated allocation and management of resources within the distributed computing system. In order to provide automated allocation and management of computing functions and resources, a control node uses a set of governors. This set of governors includes a set of service governors to govern services used in the distributed computing system. The set of governors also includes a set of resource governors that govern individual resources of the services in the distributed computing system. The service governors and the resource governors may be implemented using finite state machines. | 01-01-2009 |
20110145404 | Autonomic Control of a Distributed Computing System Using Finite State Machines - In general, this disclosure describes techniques of managing resources in a service-oriented distributed computing system. As described in this disclosure, one or more control nodes provide for the efficient and automated allocation and management of resources within the distributed computing system. In order to provide automated allocation and management of computing functions and resources, a control node uses a set of governors. This set of governors includes a set of service governors to govern services used in the distributed computing system. The set of governors also includes a set of resource governors that govern individual resources of the services in the distributed computing system. The service governors and the resource governors may be implemented using finite state machines. | 06-16-2011 |
Patent application number | Description | Published |
20100038183 | Elevator Car With Maintenance Window - The invention relates to an elevator car which is suitable for elevators in which all of the elements which are to be maintained and checked are arranged outside the elevator car, opposite only one side of the elevator car. Said elevator car comprises, on said side, one part ( | 02-18-2010 |
20100200339 | ELEVATOR CAR FOR REDUCED UPPER ENDS OF ELEVATOR SHAFTS - This elevator car ( | 08-12-2010 |
20130019444 | Elevator Car With Maintenance Window - The invention relates to an elevator car which is suitable for elevators in which all of the elements which are to be maintained and checked are arranged outside the elevator car, opposite only one side of the elevator car. The elevator car comprises, on said side, one part ( | 01-24-2013 |
20140076667 | ELEVATOR WITH CAR MOVABLE IN SERVICE MODE - An elevator car can be moved in service mode by a control unit in the interior of the car. The control unit can be accommodated behind a part, which is removable, pivotable out or displaceable, in the ceiling or light in the car, or behind a wall part, which is removable, pivotable open or displaceable, of the car. The control unit can hang at a cable and be removable from a storage niche to be actuable from any location in the interior of the car. The control unit can be a wireless transmitter which co-operates with a wireless interface at the car. Since car is movable, controlled from the interior, to any desired point of the travel path and can be stopped at any desired point all maintenance operations can be performed from the car. | 03-20-2014 |
20140076670 | ELEVATOR HAVING A MINIMAL ELEVATOR SHAFT WELL DEPTH AND A PERMANENT PROTECTIVE SPACE - The elevator has, when the elevator car is in its lowermost access level, no elevator shaft pit or one with absolute minimal depth but complies with regulations with respect to protective spaces against the risk of being crushed. The elevator car is movable in an elevator shaft with shaft doors to several access levels. Maintenance operations can be carried out both on the elevator car or from the interior of the elevator car. Access to the region below the elevator car is possible in that at least the lowermost shaft door is permanently locked, whilst all upper shaft doors can have emergency unlocking means. The at least lowermost shaft door is thus permanently locked, with the exception of the state in which the elevator car is in a stopped state, or is stopped, opposite it. The required permanent protective space consists of the entire interior of the elevator car. | 03-20-2014 |