Abstract: Technology for a repeater is disclosed. The repeater can include a signal path that includes a digital filter. The repeater can include a controller. The controller can receive plurality of signals in a multi-channel downlink signal band. The controller can digitize one or more signals in the multi-channel downlink signal band to form a plurality of digitized downlink signals. The controller can use the digital filter to adjust a gain of one or more of the digitized downlink signals based on a channel-specific received signal strength indicator (RSSI) or a network protection requirement.

Abstract: A head covering apparatus may include a crown portion. A head covering apparatus may include a brim portion. A head covering apparatus may include a bottom edge. A head covering apparatus may include a channel integrated into the crown portion and configured to receive the decorative headband device, wherein the channel comprises a top opening having a top width and a bottom opening having a bottom width, wherein the channel is vertically oriented with respect to the bottom edge of the head covering apparatus such that at least one of the top opening or the bottom opening are substantially horizontally oriented.

Abstract: Technology for a repeater is disclosed. The repeater can include a signal path that includes a digital filter. The repeater can include a controller. The controller can receive plurality of signals in a multi-channel downlink signal band. The controller can digitize one or more signals in the multi-channel downlink signal band to form a plurality of digitized downlink signals. The controller can use the digital filter to adjust a gain of one or more of the digitized downlink signals based on a channel-specific received signal strength indicator (RSSI) or a network protection requirement.

Abstract: Technology for a repeater is disclosed. The repeater can include a signal path that includes a digital filter. The repeater can include a controller. The controller can receive a multi-channel downlink signal. The controller can digitize the multi-channel downlink signal to form a plurality of channelized downlink signals. The controller can determine a base station coupling loss (BSCL) value for each of the channelized downlink signal. The controller can use the digital filter to adjust a gain of one or more of the channelized downlink signals based on the BSCL value for each of the channelized downlink signals.

Abstract: Embodiments of an inflatable transfer device including a top panel, a bottom panel coupled to the top panel to define an inflatable chamber therebetween, and a high-friction surface coupled to the top panel are disclosed. A top edge of each of the stringers is coupled to the top panel and a bottom edge of each of the stringers is coupled to the bottom panel. The high-friction surface is configured to maintain a patient in a fixed position when the inflatable transfer device and the patient are positioned at an angle with respect to a horizontal support surface.

Abstract: A technology for a dual-common port multi-bandpass filter is described. The dual-common port multi-bandpass filter can include two or more analog filters. The dual-common port multi-bandpass filter can include a first common port coupled to an input of each of the two or more analog filters, where each analog filter can be configured to filter one or more frequency bands. The dual-common port multi-bandpass filter can include a second common port coupled to an output of each of the two or more analog filters. Each input of each of the two or more analog filters can be impedance matched with the first common port. Each output of each of the two or more analog filters can be impedance matched with the second common port.

Abstract: Technology for a repeater is disclosed. The repeater can include a signal path that includes a digital filter. The repeater can include a controller. The controller can receive a multi-channel downlink signal. The controller can digitize the multi-channel downlink signal to form a plurality of channelized downlink signals. The controller can determine a base station coupling loss (BSCL) value for each of the channelized downlink signal. The controller can use the digital filter to adjust a gain of one or more of the channelized downlink signals based on the BSCL value for each of the channelized downlink signals.

Abstract: A mattress includes an inflatable pair of first panels connected to each other and defining a first air pocket therebetween; and an inflatable pair of second panels connected to each other and defining a second air pocket therebetween, wherein the pair of first panels and the pair of second panels are operatively connected to each other defining an inflatable tube containing a space to accommodate a user between the pair of first panels and the pair of second panels, and wherein the inflatable tube is rotatable upon inflation of the pair of first panels and the pair of second panels and rotation of the tube.

Abstract: Technology for a channelization device of a wideband repeater is disclosed. The channelization device can include a first diplexer and a second diplexer. The channelization device can include a plurality of switchable signal paths between the first diplexer and the second diplexer operable to perform channelized passive filtering of signals in defined bands. The channelization device can include a plurality of switchable pass through signal paths between the first diplexer and the second diplexer operable to pass through signals in the defined bands without filtering of the signals. The channelization device can be configured to perform channelized passive filtering of signals with no amplification of the signals.

Abstract: A technology is described for a signal booster. The signal booster can include a selected number of uplink transmission paths. Each uplink transmission path can be configured to amplify an uplink signal on a selected band. The signal booster can include a selected number of downlink transmission paths. Each downlink transmission path can be configured to amplify a downlink signal on a selected band. One or more of the selected number of uplink transmission paths or the selected number of downlink transmission paths can include multiple parallel signal paths that are redundant for a same selected band, respectively.

Abstract: There is provided a system and method for website content identification in a content management system. The method comprises receiving a first plurality of content identifications, wherein each of the first plurality of content identifications corresponds to each of a first plurality of contents and each of a first plurality of content paths in a content management system, determining a second plurality of content identifications, wherein each of the second plurality of content identifications corresponds to each of a second plurality of contents and each of a second plurality of content paths in the content management system, and displaying the first plurality of content identifications and the second plurality of content identification with corresponding webpage elements on a webpage. The method may further comprise receiving a selection of one of the content identifications and retrieving one of the contents or displaying one of the content paths based on the selection.

Abstract: A technology for a dual-common port multi-bandpass filter is described. The dual-common port multi-bandpass filter can include two or more analog filters. The dual-common port multi-bandpass filter can include a first common port coupled to an input of each of the two or more analog filters. Each analog filter can be configured to filter one or more frequency bands. The dual-common port multi-bandpass filter can include a second common port coupled to an output of each of the two or more analog filters. Each input of each of the two or more analog filters is impedance matched with the first common port. Each output of each of the two or more analog filters is impedance matched with the second common port.

Abstract: A technology is described for a signal booster. The signal booster can include a selected number of uplink transmission paths. Each uplink transmission path can be configured to amplify an uplink signal on a selected band. The signal booster can include a selected number of downlink transmission paths. Each downlink transmission path can be configured to amplify a downlink signal on a selected band. One or more of the selected number of uplink transmission paths or the selected number of downlink transmission paths can include multiple parallel signal paths that are redundant for a same selected band, respectively.

Abstract: A technology for a dual-common port multi-bandpass filter is described. The dual-common port multi-bandpass filter can include two or more analog filters. The dual-common port multi-bandpass filter can include a first common port coupled to an input of each of the two or more analog filters, where each analog filter can be configured to filter one or more frequency bands. The dual-common port multi-bandpass filter can include a second common port coupled to an output of each of the two or more analog filters. Each input of each of the two or more analog filters can be impedance matched with the first common port. Each output of each of the two or more analog filters can be impedance matched with the second common port.

Abstract: A technology is described for a channelization of a signal booster. A downlink (DL) and uplink (UL) signal can be channelized. A base station coupling loss (BSCL) can be estimated for selected channels in the channelized downlink signal. One or more channels in the UL and/or DL signal can be filtered to increase the BSCL, in order to increase one or more of an uplink signal gain and a noise power for the signal booster while maintaining network protections.

Abstract: A technology is described for increasing signal booster while maintaining network protections. A distance from the signal booster to one or more base stations can be estimated. A base station coupling loss (BSCL) value can be calculated based on the estimated distance. A gain and/or a noise power of an uplink signal of the frequency band can be adjusted based on the BSCL value while maintaining network protections.

Abstract: A technology is described for a signal booster. The signal booster can include a selected number of uplink transmission paths. Each uplink transmission path can be configured to amplify an uplink signal at a selected band. The signal booster can include a selected number of downlink transmission paths. Each downlink transmission path can be configured to amplify a downlink signal at a selected band. The selected number of uplink transmission paths in the signal booster may not equal the selected number of downlink transmission paths in the signal booster.

Abstract: Technology for a channelization device of a wideband repeater is disclosed. The channelization device can include a first diplexer and a second diplexer. The channelization device can include a plurality of switchable signal paths between the first diplexer and the second diplexer operable to perform channelized passive filtering of signals in defined bands. The channelization device can include a plurality of switchable pass through signal paths between the first diplexer and the second diplexer operable to pass through signals in the defined bands without filtering of the signals. The channelization device can be configured to perform channelized passive filtering of signals with no amplification of the signals.

Abstract: A technology for a dual-common port multi-bandpass filter is described. The dual-common port multi-bandpass filter can include two or more analog filters. The dual-common port multi-bandpass filter can include a first common port coupled to an input of each of the two or more analog filters. Each analog filter can be configured to filter one or more frequency bands. The dual-common port multi-bandpass filter can include a second common port coupled to an output of each of the two or more analog filters. Each input of each of the two or more analog filters is impedance matched with the first common port. Each output of each of the two or more analog filters is impedance matched with the second common port.

Abstract: A technology is described for a signal booster. The signal booster can include a selected number of uplink transmission paths. Each uplink transmission path can be configured to amplify an uplink signal at a selected band. The signal booster can include a selected number of downlink transmission paths. Each downlink transmission path can be configured to amplify a downlink signal at a selected band. The selected number of uplink transmission paths in the signal booster may not equal the selected number of downlink transmission paths in the signal booster.