Abstract: A wrap device covers the chest, belly, or both—partially or entirely or wrapping around to promote crawling, and/or keep body warm. This wrap device has fabric with straps to tie or fasten with a fastening device on the back or side of the torso to hold the wrap on the torso. Fabric is of different thicknesses to provide room and angle for hands/legs to move or push more easily to promote crawling, provide cushion, and/or keep the body warm. Nonremovable or removable pad/pads can be attached to the fabric to further adjust the height of the torso from the ground. Pad/pads can also be of different thicknesses and multiple layers of padding can be added. This wrap device does not just promote baby crawling, but it can also be used for baby, child, or adult to help keep torso/body warm, provide cushion, and help prevent getting sick.

Abstract: Disclosed are a method and an apparatus for real-time data monitoring based on machine learning, the method including: training a multi-layer predictor on actual values of historical indicator data, each layer of the multi-layer predictor including a plurality of predictors of different types; outputting predicted values of future indicator data by inputting a future time period for prediction into the trained multi-layer predictor; calculating alarm thresholds from the predicted values of the future indicator data and historical prediction errors; and triggering an alarm when an actual value of the future indicator data exceeds the corresponding alarm threshold. The accuracy of the alarm thresholds can be improved, and the alarm thresholds can be well adapted to the constantly changing indicator data. There is no need to manually configure a fixed alarm threshold, the accuracy of the alarm can be ensured, and the number of missed and false alarms can be reduced.

Abstract: A measuring device and method for horizontal dynamic impedance of specified foundation depth based on differential response analysis of pulse excitation. The measuring method is realized based on the measuring device. Two rigid piles with different lengths are embedded into different foundation depths. Motion characteristics of the two rigid piles in the process of collision impact with the outside are different under the same pulse excitation. Dynamic impedance of specified foundation depth is deduced from the formula according to the differential response. Single-degree-of-freedom oscillators are arranged on the pile heads of the two piles, and strain gauges are arranged on the bottoms of the single-degree-of-freedom oscillators to obtain stress states of the single-degree-of-freedom oscillators, thereby calculating the relative displacements of the single-degree-of-freedom oscillators. This is simple in structure, reliable in measurement and convenient in data collection and processing.

Abstract: A measuring device and method for horizontal dynamic impedance of specified foundation depth based on differential response analysis of pulse excitation. The measuring method is realized based on the measuring device. Two rigid piles with different lengths are embedded into different foundation depths. Motion characteristics of the two rigid piles in the process of collision impact with the outside are different under the same pulse excitation. Dynamic impedance of specified foundation depth is deduced from the formula according to the differential response. Single-degree-of-freedom oscillators are arranged on the pile heads of the two piles, and strain gauges are arranged on the bottoms of the single-degree-of-freedom oscillators to obtain stress states of the single-degree-of-freedom oscillators, thereby calculating the relative displacements of the single-degree-of-freedom oscillators. This is simple in structure, reliable in measurement and convenient in data collection and processing.

Abstract: A sun visor system includes multiple visors to provide selective window coverage for glare. This system can be employed on the driver side, passenger side, or both. The second visor (50), having pivotal device (56) on support rod (54), can be easily connected to the first visor (20) support rod (24) to provide pivotal movements between the windshield and side window. These visors, first and second, can be moved together or separately to stored positions, windshield and side window blocked positions, or combinations of both positions to provide window protection from glare quickly and easily for windshield, side window, or both. Also support rod of the visor can be made of flexible material, like gooseneck arm, to further provide flexible adjustments of visor to desired positions to block glare from different angles or positions of vehicle window. This adjustable visor system can be applied to a single sun visor system or multiple visors system.

Abstract: A sun visor system includes multiple visors to provide selective window coverage for glare. This system can be employed on the driver side, passenger side, or both. The second visor (50), having pivotal device (56) on support rod (54), can be easily connected to the first visor (20) support rod (24) to provide pivotal movements between the windshield and side window. These visors, first and second, can be moved together or separately to stored positions, windshield and side window blocked positions, or combinations of both positions to provide window protection from glare quickly and easily for windshield, side window, or both. Also support rod of the visor can be made of flexible material, like gooseneck arm, to further provide flexible adjustments of visor to desired positions to block glare from different angles or positions of vehicle window. This adjustable visor system can be applied to a single sun visor system or multiple visors system.

Abstract: The invention provides a method and system for fault-tolerant communication. It utilizes three wide area networks, including the cell phone network, the internet and the telephone network (PSTN). The method and system monitors the wide-area networks and sends warning messages if they cannot be accessed from a local site. Primary failure conditions relate to the access and use of the three wide-area networks. Secondary failure conditions include power outages. The possible fault conditions include: ‘telephone out’, ‘internet out’, ‘wireless radio out’, ‘power out’. If these failure conditions are detected, the method and system alerts the user and redirects voice, text message, and data traffic via a detour over a different wide-area network in order to avoid that failure. A method and system has been disclosed that routs information over one of multiple networks in a fault-tolerant manner.

Abstract: An active fuse includes an active fuse geometry (120) that is used to form both a variable resistor (106) and a select transistor (110). In one embodiment, the active fuse geometry is formed in a portion of an active region (160) of a semiconductor substrate (140), and a select gate (124) is disposed over an end portion (123) of the active fuse geometry to form an integral select transistor (110) for use in programming the active fuse. The use of a shared active fuse geometry within the active region allows for reduced area requirements and improved sensing margins.

Abstract: An active fuse includes an active fuse geometry (120) that is used to form both a variable resistor (106) and a select transistor (110). In one embodiment, the active fuse geometry is formed in a portion of an active region (160) of a semiconductor substrate (140), and a select gate (124) is disposed over an end portion (123) of the active fuse geometry to form an integral select transistor (110) for use in programming the active fuse. The use of a shared active fuse geometry within the active region allows for reduced area requirements and improved sensing margins.

Abstract: A method of forming a stacked capacitor structure in a semiconductor device, having metal electrode plates. After depositing the bottom electrode layer (26) and the dielectric layer (28) of the capacitor, a rough patterning step is carried out to roughly pattern or shape the bottom electrode layer and the dielectric layer, and to expose the underlying interlayer dielectric (18). A top electrode layer (32) is then blanket deposited, and another, more precise etching step is carried out to form the final shape of the capacitor element, while leaving behind a portion of the top electrode layer on the interlayer dielectric, which forms a metal interconnect (36). In one embodiment, the electrode layers are comprised of materials having a conductivity greater than doped silicon (either poly or monocrystalline), such as a metal.