Patent application number | Description | Published |
20130306787 | AUTOMATIC ATTITUDE CONTROL OF ROTARY WING AIRCRAFTS - A method and device for precise control of and controller design for aircrafts consisting of at least one spinning part and at least one non spinning part is provided. The required torques for control of the spinning parts and for the non-spinning parts are continuously and individually calculated. All torques are combined to get the correct torque for the complete aircraft. Doing this, it's possible to continuously apply the correct torque, both correctly distributed among the roll and pitch axes (correct angle), and correct magnitude. The result is a decoupling of the roll and pitch axes, simplifying controller design to a design of two single input single output controllers, one for each axe. | 11-21-2013 |
20140067162 | METHOD AND DEVICE FOR CONTROLLING AND MONITORING THE SURROUNDING AREAS OF AN UNMANNED AERIAL VEHICLE (UAV) - The embodiments herein disclose a method and a remote control for controlling and monitoring surrounding areas of an Unmanned Aerial Vehicle (UAV) by an operator with a remote control comprising a flight display. The embodiments disclose a surprising advantageously effect for the purposes of controlling and monitoring the surroundings of a UAV by combining the image captured by a UAV camera with a transparently overlaid positional and navigation map providing a perception enabling the operator to have a complete overall view of the situation, utilizing a common screen section of a flight display and thereby not having to shift eye view. Viewing images and positional and navigation information in the way described has shown not to interfere with each other, rather on the contrary. | 03-06-2014 |
20140142784 | CONTROL OF UAV - The present invention discloses a control stick for controlling an UAV formed by a bar with buttons on the bar head and a GUI displaying airplane like icons providing feedback of current steering control status of a UAV. | 05-22-2014 |
20140257596 | METHOD AND DEVICE FOR CONTROLLING AND MONITORING THE SURROUNDING AREAS OF AN UNMANNED AERIAL VEHICLE (UAV) - The embodiments herein disclose a method and a remote control for controlling and monitoring surrounding areas of an Unmanned Aerial Vehicle (UAV) by an operator with a remote control comprising a flight display. The embodiments disclose a surprising advantageously effect for the purposes of controlling and monitoring the surroundings of a UAV by combining the image captured by a UAV camera with a transparently overlaid positional and navigation map providing a perception enabling the operator to have a complete overall view of the situation, utilizing a common screen section of a flight display and thereby not having to shift eye view. Viewing images and positional and navigation information in the way described has shown not to interfere with each other, rather on the contrary. | 09-11-2014 |
Patent application number | Description | Published |
20130199753 | METHODS, SYSTEMS, AND DEVICES FOR THERMAL ENHANCEMENT - Methods, systems, and devices are provided for thermal enhancement. Thermal enhancement may include absorbing heat from one or more devices. In some cases, this may improve the efficiency of the one or more devices. In general, a phase transition may be induced in a storage material. The storage material may be combined with a freeze point suppressant in order to reduce its melt point. The mixture may be used to boost the performance of device, such as an electrical generator, a heat engine, a refrigerator, and/or a freezer. The freeze point suppressant and storage material may be separated. By delaying the periods between each stage by prescribed amounts, the methods, systems, and devices may be able to shift the availability of electricity to the user and/or otherwise boost a device at different times in some cases. | 08-08-2013 |
20140123646 | Concentrating Solar Power Methods and Systems with Liquid-Solid Phase Change Material for Heat Transfer - Concentrating solar power systems and methods featuring the use of a solid-liquid phase change heat transfer material (HTM). The systems and methods include a solar receiver to heat and melt a quantity of solid HTM. Systems also include a heat exchanger in fluid communication with the solar receiver providing for heat exchange between the liquid HTM and the working fluid of a power generation block. The systems and methods also include a hot storage tank in communication with the solar receiver and the heat exchanger. The hot storage tank is configured to receive a portion of the liquid HTM from the solar receiver for direct storage as a thermal energy storage medium. Thus, the system features the use of a phase change HTM functioning as both a heat transfer medium and a thermal energy storage medium. | 05-08-2014 |
20140251310 | HIGH TEMPERATURE THERMAL ENERGY STORAGE - The effectiveness of heat transfer to and from a thermal energy storage medium, for example a phase change medium, is enhanced by the inclusion of thermally-conductive elements within the thermal energy storage medium. The thermally-conductive elements may be filler shapes placed in a self-supporting stacking arrangement, which may be a random stacking arrangement. The effective thermal conductivity of the matrix that includes the thermal energy storage medium and the thermally-conductive elements is higher than the thermal conductivity of the thermal energy storage medium itself. Other thermally-conductive elements may be used, for example thermally-conductive sheets. | 09-11-2014 |
20140338372 | Methods, Systems, and Devices for Producing a Heat Pump - Methods, systems, and/or devices are provided for producing a heat pump. In some embodiments, the heat pump may be driven by low temperature heat. The methods, systems, and devices may include tools and techniques for: precipitating a first material, where heat may be released from the precipitated first material; cooling the precipitated first material; dissolving the cooled precipitated first material into a second material to create a dissolved mixture, where heat may be absorbed into the mixture; and/or separating the first material and the second material from the dissolved mixture. | 11-20-2014 |