摘要:
Methods, systems and apparatus for tracking points of interest of a user of a mobile device are disclosed. One method includes determining points of interest of a user of a mobile device. The method includes obtaining user-related information, wherein the user-related information includes spatial information about the user, and determining at least one point of interest of the user based on the user-related information. Another embodiment includes an apparatus for determining points of interest of a user. For one embodiment, the apparatus is a mobile device. The mobile device is operative to obtain user-related information, wherein the user-related information comprising spatial information about the user, and the mobile device is operative to determine at least one point of interest of the user based on the user-related information.
摘要:
A high-density and high-robustness sub-threshold memory cell circuit, having two PMOS transistors P1 and P2 and five NMOS transistors N1˜N5, wherein, the each base electrode of the two PMOS transistors and NMOS transistors N3, N4, and N5 is connected with the local grid electrode respectively; the base electrode of the NMOS transistors N1 and N2, are grounded respectively; the NMOS transistor N1 form an phase inverter with the PMOS transistor P1, and the NMOS transistor N2 form another phase inverter with the PMOS transistor P2; the two phase inverters are connected with each other in a cross coupling manner via the cut-off NMOS transistor N5, the output end of the phase inverter N1 and P1 directly connected to the input end of the phase inverter N2 and P2, and the output end of the phase inverter N2 and P2 connected to the input end of the phase inverter N1 and P1 via the cut-off NMOS transistor N5; the NMOS transistor N3 is connected with the write bit line (WBL) of the phase inverter N1 and P1, and the NMOS transistor N4 is connected with the NOT WBL and read word line (RWL) of the phase inverter N2 and P2.
摘要:
A battery system includes a metal oxygen battery. The metal oxygen battery includes a first electrode, an oxygen storage material, and a selective transport member separating the oxygen storage material and the first electrode.
摘要:
The invention concerns a traffic surveillance system that is used to detect and track vehicles in video taken of a road from a low mounted camera. The inventors have discovered that even in heavily occluded scenes, due to traffic density or the angle of low mounted cameras capturing the images, at least one horizontal edge of the windshield is least likely to be occluded for each individual vehicle in the image. Thus, it is an advantage of the invention that the direct detection of a windshield on its own can be used to detect a vehicle in a single image. Multiple models are projected (206) onto an image with reference to different points in the image. The probability of each point forming part of a windshield is determined based on a correlation of the horizontal edges in the image with the horizontal edges of the windshield model referenced at that point (220). This probability of neighbouring points is used to possible detect a vehicle in the image (224). Aspects of the invention include a method, software and traffic surveillance system.
摘要:
In one embodiment, a metal oxygen battery is provided. The metal oxygen battery includes a battery housing including a first compartment and a second compartment. The first compartment includes a first electrode and an oxygen storage material in communication with the first electrode. The second compartment includes a second electrode and the second electrode includes a metal material (M). In another embodiment, the oxygen storage material is configured as a number of particles disposed within the first electrode. In certain instances, at least a portion of the number of particles are each contained within a selective transport member. In certain other instances, the selective transport member is oxygen permeable and electrolyte impermeable.
摘要:
A system for reversibly storing hydrogen includes a storage tank with an internal volume with a thermally conducting composite material situated within the storage tank and having a three-dimensional and interconnected framework of a conductive metal within the internal volume of the storage tank.
摘要:
A new method for preparing a supported catalyst is herein provided. Carbon nanotubes are functionalized by contacting them with an oxidizing agent to form functionalized carbon nanotubes. A metal catalyst is then loaded or deposited onto the functionalized carbon nanotubes. The mixture is then extruded to form the supported catalyst comprising a carbon nanotube structure containing metal catalyst more evenly dispersed within the internal structure of the carbon nanotube structure.
摘要:
A battery system includes a metal oxygen battery. The metal oxygen battery includes a first electrode and a second electrode. The second electrode includes a metal material (M). The metal oxygen battery is in communication with an oxygen storage material. In certain instances, the oxygen storage material is contained within an oxygen containment unit. The metal oxygen battery and the oxygen containment unit may be in a closed-loop with respect to each other. The battery system further includes a conduit for providing fluid communication from one of the metal oxygen battery and the oxygen containment unit to the other of the metal oxygen battery and the oxygen containment unit.
摘要:
According to one aspect of the present invention, a hybrid hydrogen storage system is provided. In one embodiment, the hybrid hydrogen storage system includes: a first hydrogen storage material present at a first volume percent (%) having a first gravimetric capacity and a first volumetric capacity; and a second hydrogen storage material forming an unreacted mixture with the first hydrogen storage material and present at a second volume % being 100 volume % minus the first volume %, the second storage material having a second gravimetric capacity and a second volumetric capacity, the first gravimetric capacity at the first volume % being higher or lower than the second gravimetric capacity at the second volume %, and the first volumetric capacity at the first volume % being the other of higher or lower than the second volumetric capacity at the second volume %.