Abstract: In various embodiments a variable buoyancy profiling float is disclosed. The variable buoyancy profiling float may comprise a spherical glass housing comprising a first hemisphere and a second hemisphere. The first and second hemispheres may be coupled by a partial vacuum within the spherical glass housing. A buoyancy system may be located at least partially within the spherical glass housing. The buoyancy system may be configured to provide variable buoyancy control to the variable buoyancy profiling float. A sensor bundle may be mounted to the spherical glass housing and may be configured to measure at least one environmental parameter.

Abstract: In various embodiments a variable buoyancy profiling float is disclosed. The variable buoyancy profiling float may comprise a spherical glass housing comprising a first hemisphere and a second hemisphere. The first and second hemispheres may be coupled by a partial vacuum within the spherical glass housing. A buoyancy system may be located at least partially within the spherical glass housing. The buoyancy system may be configured to provide variable buoyancy control to the variable buoyancy profiling float. A sensor bundle may be mounted to the spherical glass housing and may be configured to measure at least one environmental parameter.

Abstract: In various embodiments a variable buoyancy profiling float is disclosed. The variable buoyancy profiling float may comprise a spherical glass housing comprising a first hemisphere and a second hemisphere. The first and second hemispheres may be coupled by a partial vacuum within the spherical glass housing. A buoyancy system may be located at least partially within the spherical glass housing. The buoyancy system may be configured to provide variable buoyancy control to the variable buoyancy profiling float. A sensor bundle may be mounted to the spherical glass housing and may be configured to measure at least one environmental parameter.

Abstract: The list of priorities which include both planner goals, and scheduling goals are employed to produce a global production list of goals. The goals list is used to resolve a choice.

Abstract: A method for planning a production schedule within a factory is disclosed herein. A capacity model is determined for the factory. The capacity model is determined by determining a plurality of contiguous time intervals, partitioning the factory into a plurality of resource groups, and determining a processing capacity for each of the resource groups for each of the time intervals. For each job to be planned, the job is divided into a plurality of processing segments each of which is represented with a corresponding fuzzy set. The fuzzy set representations are inserted and removed within the capacity model until the job is planned. A completion date and a confidence level can be predicted for each of the jobs. In addition, the jobs may be released to the factory and devices fabricated according to the requirements of the jobs. Other systems and methods are also disclosed.

Abstract: A method for planning a production schedule within a factory is disclosed herein. A capacity model is determined for the factory. The capacity model is determined by determining a plurality of contiguous time intervals, partitioning the factory into a plurality of resource groups, and determining a processing capacity for each of the resource groups for each of the time intervals. For each job to be planned, the job is divided into a plurality of processing segments each of which is represented with a corresponding fuzzy set. The fuzzy set representations are inserted and removed within the capacity model until the job is planned. A completion date and a confidence level can be predicted for each of the jobs. In addition, the jobs may be released to the factory and devices fabricated according to the requirements of the jobs. Other systems and methods are also disclosed.