A method of operating a mobile receiving system includes the steps of registering and storing, in a first cycle, a plurality of receivable transmitters in a first specifiable frequency range with a first receiving method, and establishing a number of the receivable transmitters from the first cycle. The method further includes the steps of registering and storing, in a second cycle, a plurality of receivable transmitters in the first specifiable frequency range with the first receiving method, and establishing a number of the receivable transmitters from the second cycle. The number of receivable transmitters from the first cycle are compared with the number of receivable transmitters from the second cycle and, when the numbers of receivable transmitters in the first cycle and the second cycle deviate from one another by a first specifiable value, the first receiving method is switched to a second receiving method.

A system and method for determining a part having an anomaly in equipment and initiating electronic transaction for placing order to replace the part using three-dimensional (3D) model of equipment. The system inspects equipment to identify type of equipment and requests a data storage device storing 3D models of equipment to provide matching 3D models corresponding to equipment identified. The system utilizes various technologies to determine relative location of anomaly indicative of failing/failed part in equipment. The system overlays 3D image map from the 3D model to identify specific part/assembly/subassembly within the 3D model corresponding to the relative location of the anomaly. The system identifies additional parts associated with the failing/failed part as a kit in the 3D image map, and adds the kit to virtual shopping cart for initiating electronic transaction in reference to the kit depicted in the 3D model of equipment for replacement of the failing/failed part.

A system and method for determining a part having an anomaly in equipment and initiating electronic transaction for placing order to replace the part using three-dimensional (3D) model of equipment. The system inspects equipment to identify type of equipment and requests a data storage device storing 3D models of equipment to provide matching 3D models corresponding to equipment identified. The system utilizes various technologies to determine relative location of anomaly indicative of failing/failed part in equipment. The system overlays 3D image map from the 3D model to identify specific part/assembly/subassembly within the 3D model corresponding to the relative location of the anomaly. The system identifies additional parts associated with the failing/failed part as a kit in the 3D image map, and adds the kit to virtual shopping cart for initiating electronic transaction in reference to the kit depicted in the 3D model of equipment for replacement of the failing/failed part.

A method and an apparatus for transmitting broadcast signals thereof are disclosed. The apparatus for transmitting broadcast signals, the apparatus comprises an encoder to encode service data corresponding to each of a plurality of physical paths, a time interleaver to the encoded service data in each physical path by a TI (Time Interleaving) block, wherein at least one virtual FEC block is ahead of FEC blocks in at least one TI block, wherein each TI block includes a variable number of FEC blocks of the encoded service data, wherein a number of the at least one virtual FEC block is defined based on a maximum number of FEC blocks of a TI block, a frame builder to build at least one signal frame including the time interleaved DP data, a modulator to modulate data in the built at least one signal frame by an OFDM (Orthogonal Frequency Division Multiplex) scheme and a transmitter to transmit the broadcast signals having the modulated data.

Disclosed is a broadcasting signal transmission device, a broadcasting signal reception device, and a method for transmitting/receiving a broadcasting signal using same. The method for receiving the broadcasting signal comprises the following steps: receiving the broadcasting signal, which includes a transmission frame, wherein the transmission frame includes a plurality of PLPs, which transmit components that constitute a broadcasting service, first signaling information and second signaling information, which include the signaling information of the plurality of PLPs, a first preamble signal, which has been signaled with a preamble format, and a second preamble signal, which has been signaled with pilot pattern information, wherein one of the plurality of PLPs is a base PLP, which includes a program number that corresponds to the broadcasting service and program map table information, which has been signaled with identifying information for each of the PLPs; demodulating the broadcasting signal based on the first and the second preamble signals; FEC decoding the demodulated broadcasting signal; and identifying a PLP group that includes the plurality of PLP from the FEC decoded broadcasting signal based on the first and the second signaling information, decoding at least one PLP of the identified PLP group, and providing the broadcasting service.

Disclosed is a broadcasting signal transmission device, a broadcasting signal reception device, and a method for transmitting/receiving a broadcasting signal using same. The method for receiving the broadcasting signal comprises the following steps: receiving the broadcasting signal, which includes a transmission frame, wherein the transmission frame includes a plurality of PLPs, which transmit components that constitute a broadcasting service, first signaling information and second signaling information, which include the signaling information of the plurality of PLPs, a first preamble signal, which has been signaled with a preamble format, and a second preamble signal, which has been signaled with pilot pattern information, wherein one of the plurality of PLPs is a base PLP, which includes a program number that corresponds to the broadcasting service and program map table information, which has been signaled with identifying information for each of the PLPs; demodulating the broadcasting signal based on the first and the second preamble signals; FEC decoding the demodulated broadcasting signal; and identifying a PLP group that includes the plurality of PLP from the FEC decoded broadcasting signal based on the first and the second signaling information, decoding at least one PLP of the identified PLP group, and providing the broadcasting service.

A distribution system for transmitting media content programs to premises equipment via a satellite transmission path addresses signal degradation caused by atmospheric conditions and other factors. Upon detection of a degradation of the satellite signal, the system may begin transmitting the content using an alternative signal path, such as a terrestrial IP network. The satellite transmission path is brought back on line after the satellite link is restored. Alternatively, the system may begin recording the signal in the media distribution system for transmission via the satellite link after the link is restored.

A distribution system for transmitting media content programs to premises equipment via a satellite transmission path addresses signal degradation caused by atmospheric conditions and other factors. Upon detection of a degradation of the satellite signal, the system may begin transmitting the content using an alternative signal path, such as a terrestrial IP network. The satellite transmission path is brought back on line after the satellite link is restored. Alternatively, the system may begin recording the signal in the media distribution system for transmission via the satellite link after the link is restored.

The 3D models includes parametric data and metadata. A software enables a user to specify search criteria for a selected product among a plurality of products whose 3D models are stored on the data storage device. The search software returns a list of product(s) matching the search criteria. The user selects a product and the 3D model of the selected product is streamed to the user software. The 3D model is then displayed to the user, who now can interact with the 3D model by selecting, hovering over, or decomposing the 3D model to reveal parts or subassemblies of the product in one or more stages of decomposition. Finally, e-commerce software communicates with the user software allowing the user to initiate an ecommerce transaction with respect to the parts or subassemblies depicted in the 3D model of the selected product.

The 3D models includes parametric data and metadata. A software enables a user to specify search criteria for a selected product among a plurality of products whose 3D models are stored on the data storage device. The search software returns a list of product(s) matching the search criteria. The user selects a product and the 3D model of the selected product is streamed to the user software. The 3D model is then displayed to the user, who now can interact with the 3D model by selecting, hovering over, or decomposing the 3D model to reveal parts or subassemblies of the product in one or more stages of decomposition. Finally, e-commerce software communicates with the user software allowing the user to initiate an ecommerce transaction with respect to the parts or subassemblies depicted in the 3D model of the selected product.