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Halvor
Halvor Aase, Moss NO
| Patent application number | Description | Published |
|---|---|---|
| 20110181412 | ENERGY MANAGEMENT AND SECURITY IN MULTI-UNIT FACILITIES - Methods, systems, and devices for managing energy consumption in multi-room facilities are provided. In particular, intelligent mechanisms for determining a room occupancy state and then for managing energy settings of that room are provided. Some logic for implementing these mechanisms may be provided in an in-room device, such as a motion detector, thermostat, door, lock, television, set top box, etc. | 07-28-2011 |
| 20110187493 | METHOD AND SYSTEM FOR PERMITTING REMOTE CHECK-IN AND COORDINATING ACCESS CONTROL - Methods, systems, and devices for controlling access within a multi-facility room are provided. More specifically, a guest of the multi-room facility is allowed to remotely confirm reservations to the facility as well as bypass the front desk of the multi-room for check-in purposes. At a location within the facility, the guest is allowed to confirm their arrival, check-in, and have their access credential written with personalized access data that may be useable for the duration of the guest's stay. | 08-04-2011 |
Halvor Kjørholt, Trondheim NO
| Patent application number | Description | Published |
|---|---|---|
| 20110214884 | LINING OF WELL BORES WITH EXPANDABLE AND CONVENTIONAL LINERS - Reducing the diameter of a well bore has many advantages. To achieve this a subsurface well bore is provided comprising one or more expandable sleeve components, preferably expandable liners ( | 09-08-2011 |
Halvor Kjørholt, Stavanger NO
| Patent application number | Description | Published |
|---|---|---|
| 20120043081 | SINGLE WELL STEAM ASSISTED GRAVITY DRAINAGE - The present invention provides a method for recovering hydrocarbons from a sub-surface reservoir having present therein a wellbore in which a production conduit and an injection conduit are located, said method comprising injecting a heating fluid into the reservoir via said injection conduit, characterised in that said heating fluid is released via a plurality of discrete permeable sections (injection sections) located along the length of the injection conduit and produced hydrocarbons are collected via a plurality of discrete permeable sections (production sections) located along the length of the production conduit. | 02-23-2012 |
Halvor Torvmark, Eidsvoll Verk NO
| Patent application number | Description | Published |
|---|---|---|
| 20100023364 | METHOD AND SYSTEM FOR DETERMINING A THREAT AGAINST A BORDER - A method for determining a threat against a border from objects crossing or trying to cross said border. Said method includes at least the steps of segmenting the border into border elements of uniform terrain features infrastructure and weather conditions, collecting data of incidents occurring along a given border element, determining a threat potential for said border element, determining a protection factor for the border element, and determining a threat against the border element from the threat potential and protection factor. The method may be used for warning about an increased threat to a border, wherein the threat is compared with a threat value threshold. If the threat exceeds the threat value threshold, an alarm is issued. The method may also be used for allocating protective measures along a border. | 01-28-2010 |
| 20100073164 | METHOD FOR DETERMINING SENSOR COVERAGE, A DESIGN TOOL AND A BORDER PROTECTION SYSTEM USING THE METHOD - A method is disclosed for determining sensor performance of a border element of homogeneous terrain, weather and vegetation properties. The border element includes a number of areas of interest, as well as a plurality of sensors. The method includes determining coordinates of the border element and areas, and determining performance data for each sensor. The coordinates and performance data is used as input parameters to a Line-Of-Sight tool for determining a coverage factor of each sensor. The coverage factor is modified for time per time unit in which function of each sensor is impaired by conditions such as bad weather, light or mobility. Then, the modified coverage factors for each sensor are summed to obtain a total sensor performance for the border element. | 03-25-2010 |