Patent application number | Description | Published |
20090022467 | Optical fiber distribution frame with outside plant enclosure - A fiber optic telecommunications frame is provided including panels having front and rear termination locations, the panels positioned on left and right sides of the frame. The frame includes vertical access for the rear cables. The frame further includes left and right vertical cable guides for the front patch cables. The frame further includes cable storage spools for the patch cables. The frame includes a horizontal passage linking the left and right panels and the cable guides. A portion of the frame defines splice tray holders and a central passage from the splice tray holders to the rear sides of the left and right panels. From a front of each panel, access to a rear of the panel is provided by the hinged panels. Alternatively, the panels can form connector modules with front termination locations and rear connection locations for connecting to the rear cables. The modules can house couplers, such as splitters, combiners, and wave division multiplexers. The termination locations can be located on the same side of the frame as the splice tray holders, or on an opposite side. An enclosure of the frame included hinged or otherwise moveable panels to allow access to the terminations or the splice trays. | 01-22-2009 |
20110058784 | Optical fiber distribution frame with outside plant enclosure - A fiber optic telecommunications frame is provided including panels having front and rear termination locations, the panels positioned on left and right sides of the frame. The frame includes vertical access for the rear cables. The frame further includes left and right vertical cable guides for the front patch cables. The frame further includes cable storage spools for the patch cables. The frame includes a horizontal passage linking the left and right panels and the cable guides. A portion of the frame defines splice tray holders and a central passage from the splice tray holders to the rear sides of the left and right panels. From a front of each panel, access to a rear of the panel is provided by the hinged panels. Alternatively, the panels can form connector modules with front termination locations and rear connection locations for connecting to the rear cables. The modules can house couplers, such as splitters, combiners, and wave division multiplexers. The termination locations can be located on the same side of the frame as the splice tray holders, or on an opposite side. An enclosure of the frame included hinged or otherwise moveable panels to allow access to the terminations or the splice trays. | 03-10-2011 |
20110286712 | OPTICAL FIBER DISTRIBUTION FRAME WITH OUTSIDE PLANT ENCLOSURE - A fiber optic telecommunications frame is provided including panels having front and rear termination locations, the panels positioned on left and right sides of the frame. The frame includes vertical access for the rear cables. The frame further includes left and right vertical cable guides for the front patch cables. The frame further includes cable storage spools for the patch cables. The frame includes a horizontal passage linking the left and right panels and the cable guides. A portion of the frame defines splice tray holders and a central passage from the splice tray holders to the rear sides of the left and right panels. From a front of each panel, access to a rear of the panel is provided by the hinged panels. Alternatively, the panels can form connector modules with front termination locations and rear connection locations for connecting to the rear cables. The modules can house couplers, such as splitters, combiners, and wave division multiplexers. The termination locations can be located on the same side of the frame as the splice tray holders, or on an opposite side. An enclosure of the frame included hinged or otherwise moveable panels to allow access to the terminations or the splice trays. | 11-24-2011 |
20140153892 | OPTICAL FIBER DISTRIBUTION FRAME WITH OUTSIDE PLANT ENCLOSURE - A fiber optic telecommunications frame is provided including panels having front and rear termination locations, the panels positioned on left and right sides of the frame. The frame includes vertical access for the rear cables. The frame further includes left and right vertical cable guides for the front patch cables. The frame further includes cable storage spools for the patch cables. The frame includes a horizontal passage linking the left and right panels and the cable guides. A portion of the frame defines splice tray holders and a central passage from the splice tray holders to the rear sides of the left and right panels. From a front of each panel, access to a rear of the panel is provided by the hinged panels. Alternatively, the panels can form connector modules with front termination locations and rear connection locations for connecting to the rear cables. The modules can house couplers, such as splitters, combiners, and wave division multiplexers. The termination locations can be located on the same side of the frame as the splice tray holders, or on an opposite side. An enclosure of the frame included hinged or otherwise moveable panels to allow access to the terminations or the splice trays. | 06-05-2014 |
Patent application number | Description | Published |
20080291920 | SYSTEM AND METHOD FOR MANAGING COMMUNICATIONS - A system and method for managing communications is disclosed. A system that incorporates teachings of the present disclosure may include, for example, a communication device having a controller element to transmit a packet along a logical tunnel established through an internet service provider, wherein the route of the packet is managed according to a MPLS label of the packet and a VRF routing table. Additional embodiments are disclosed. | 11-27-2008 |
20090016361 | SYSTEM AND METHOD FOR ESTABLISHING COMMUNICATIONS BETWEEN PACKET-SWITCHED NETWORKS - A system and method for establishing communications between packet-switched networks is disclosed. A system that incorporates teachings of the present disclosure may include, for example, a communication device having a controller element to transmit a packet along a logical tunnel established through an Internet Service Provider (ISP) network. The packet is encoded with a Virtual Circuit (VC) label by a local Ethernet network operating independent from the ISP network. The VC-label of the encoded packet is substantially undetectable by one or more network elements of the ISP network while in route through the logical tunnel. Additional embodiments are disclosed. | 01-15-2009 |
20090055241 | System and Method for Estimating a Qualiifed Impression Count for Advertising Data in a Communication System - A method and system for estimating a qualified impression count in a communication network, the method comprising receiving at a server, impression quality factors data comprising subscriber device state data indicative of a degree of active advertising data viewing, subscriber device type data indicative of a type of subscriber device receiving the advertising data and subscriber type data indicative of a type of subscriber viewing the advertising data; sorting the impression quality factors data into impression quality factors categories data; applying weights to the sorted impression quality factors categories data; accumulating the weighted impression quality factors categories data into the impression quality factors categories; applying unique curves to at least two of the accumulated impression quality factors categories data to generate curve adjusted impression quality factors categories data; correlating the curve adjusted impression quality factors categories data with advertising quality criteria data; and estimating the qualified impression count from the correlation. | 02-26-2009 |