Ole Henrik
Ole Henrik Jørgensen, Kongsberg NO
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20150032306 | DYNAMIC LOAD COMPENSATION - The present invention relates to a system for reducing load and frequency variations in the power distribution of a dynamically positioned vessel. The system comprising a consumer load control being connected to at least one power generator and at least one thruster, the consumer load control being adapted to monitor the available power in the system, from said at least one power generator and, the power consumption from said at least one thruster as well as other power consumers in the system. The system also comprises a dynamic positioning (DP) unit monitoring the position of the vessel calculating the required thruster capacity for maintaining a predetermined position, wherein the DP unit is adapted to define an acceptable window for variations in said position relative to the predetermined position, and said consumer load control is adapted to adjust the power provided to said thruster in order to reduce total load variations depending on the available power and to the position of the vessel relative to said window. | 01-29-2015 |
Ole Henrik Jørgensen, Horten NO
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20150051746 | PREDICTIVE CONTROL SYSTEM - This invention relates to a system for reducing frequency and/or voltage variations in the power distribution system. The system comprises a power control unit being connected to at least one power generator and at least one consumer, power control system being adapted to monitor the measured load in the system from said at least one power generator and the power consumption from said at least one consumer, and a prediction allocating system for adapted to receive information from, each consumer related to the planned or predicted power consumption and to calculate expected power consumption of the system, and feeding the allocated power consumption to a motor generator system (MGS) controller. | 02-19-2015 |
Ole Henrik Nielsen, Hong Kong CN
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20090031763 | Shipping container locking assembly - Shipping container locking assemblies for engagement with cylindrical locks are disclosed. The locking assemblies include: a plate mounted on a portion of a first door, the plate having an aperture; a bracket mounted on a first side of the plate and surrounding most of a periphery of the aperture of the plate; and a tab connected to a portion of a second door, the tab having an aperture at a first end, and the tab being configured to extend through the aperture of the plate. | 02-05-2009 |
20090184112 | EXTENDED WIDTH SHIPPING CONTAINER AND METHOD OF SHIPPING - Shipping containers that are wider than standard 8-foot (2.44 m) wide shipping containers and methods of shipping such extended width shipping containers are disclosed. The extended width shipping containers include: a roof; a base; a front end; a back end; two side panels; at least one door rotatable about a door rotation axis substantially perpendicular to the roof and the base; two pairs of end rails substantially perpendicular to the roof and the base; and two pairs of corner posts substantially perpendicular to the two side panels and the door rotation axis; wherein the corner posts are configured to support a greater compressive load than the end rails. Methods of shipping an extended width shipping container include: loading the shipping container with cargo; rotating the shipping container to a shipping orientation; placing the shipping container in an 8-foot (2.44 m) wide container cell of a ship; shipping the shipping container; removing the shipping container from the container cell; rotating the shipping container to a storage orientation; unloading the shipping container; transporting the shipping container over land; and utilizing the shipping container for storage of goods. | 07-23-2009 |
Ole Henrik Nielsen, Wanchai HK
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20080251403 | Storage container, pocket end opening cover thereof and method of forming the storage container - A storage container includes forklift pockets extending laterally near a bottom surface of the container from a lower side of the container, each pocket having an end opening located at the lower side of the container. Pocket covers are mounted to the storage container such that the end openings of the forklift pockets are covered. | 10-16-2008 |
20090107190 | Container locking systems - A system for locking a container door to a container body is provided. The system includes a rotating member coupled to the door. The system further includes a cover covering the rotating member and an opening formed through the cover. The system also includes a handle coupled to the rotating member and extending though the opening, the handle being moveable through the opening for rotating the rotating member between a locked and an unlocked position. Moreover the system includes a lock for preventing rotation of the rotating member to the unlocked position. | 04-30-2009 |
Ole Henrik Waagaard, Trondheirn NO
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20090122319 | NON-UNIFORM SAMPLING TO EXTEND DYNAMIC RANGE OF INTERFEROMETRIC SENSORS - Methods and apparatus for interrogating optical sensors with high slew rates using non-uniform sampling are provided. The transmission of optical signals in a non-uniform pattern is employed to allow for demodulation of fringe rates exceeding the commonly understood Nyquist frequency limit given as one half of the mean sampling frequency. By monitoring the time dependent fringe frequency and assuming that the fringe frequency has a limited bandwidth, only a limited bandwidth smaller than the Nyquist bandwidth around the instantaneous fringe frequency needs to be reconstructed at any time. | 05-14-2009 |
Ole Henrik Waagaard, Trondheim NO
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20080291461 | METHOD AND APPARATUS FOR SUPPRESSION OF CROSSTALK AND NOISE IN TIME-DIVISION MULTIPLEXED INTERFEROMETRIC SENSOR SYSTEMS - Unwanted signal components in time-division multiplexed (TDM) systems may lead to crosstalk and noise if these pulses overlap with signal pulses from an interrogated sensor. The crosstalk and noise are dominated by interference between the signal pulses from the interrogated sensor and the unwanted signal components and can be greatly reduced by suppressing this interference signal. The unwanted signal components may include overlapping pulses originating from different sets of interrogation pulses (repetition periods). Modulating the phase or frequency between the repetition periods so that the unwanted interference signal does not appear at frequencies from which the phase of the interrogated sensor is demodulated suppresses this interference. Other unwanted signal components include leakage light during dark periods of the duty cycle of an interrogation signal. Modulating the phase difference between the interrogation signal and the leakage light suppresses the interference between the leakage light and the interrogation signal. | 11-27-2008 |
20090111417 | ADAPTIVE MIXING FOR HIGH SLEW RATES - A method and apparatus for demodulation of detected fringes from interferometric sensors with high slew rates are provided. A detected interference signal may be mixed with a local oscillator phasor to obtain a mixed signal, the local oscillator being controlled to produce a frequency that roughly matches the fringe frequency of the interference signal. A sensor phase estimate may be obtained from the detected interference signal or the mixed signal. The local oscillator signal can be computed from the sensor phase estimate. The mixed signal and the sensor phase estimate may be low pass filtered and decimated and the resulting decimated mixed signal and decimated sensor phase estimate may be processed and combined with moderate processing power requirements in an effort to accurately measure the sensor phase for the interferometric sensor. | 04-30-2009 |