An information processing apparatus comprises: a generating unit which generates, based on model information including a feature of an object, a model feature indicating the feature of the object to be acquired by observing the object respectively from a plurality of candidate viewpoints; an acquiring unit which acquires an image feature indicating features of images acquired by photographing the object respectively from the plurality of candidate viewpoints; an evaluating unit which evaluates each of the plurality of candidate viewpoints, based on a correspondence relation between the model feature and the image feature; and a selecting unit which selects, from the plurality of candidate viewpoints, one or more measurement viewpoints from which the object should be measured, on the basis of evaluation by the evaluating unit for each of the plurality of candidate viewpoints.

An information processing apparatus comprises: a generating unit which generates, based on model information including a feature of an object, a model feature indicating the feature of the object to be acquired by observing the object respectively from a plurality of candidate viewpoints; an acquiring unit which acquires an image feature indicating features of images acquired by photographing the object respectively from the plurality of candidate viewpoints; an evaluating unit which evaluates each of the plurality of candidate viewpoints, based on a correspondence relation between the model feature and the image feature; and a selecting unit which selects, from the plurality of candidate viewpoints, one or more measurement viewpoints from which the object should be measured, on the basis of evaluation by the evaluating unit for each of the plurality of candidate viewpoints.

An information processing apparatus comprises: a generating unit which generates, based on model information including a feature of an object, a model feature indicating the feature of the object to be acquired by observing the object respectively from a plurality of candidate viewpoints; an acquiring unit which acquires an image feature indicating features of images acquired by photographing the object respectively from the plurality of candidate viewpoints; an evaluating unit which evaluates each of the plurality of candidate viewpoints, based on a correspondence relation between the model feature and the image feature; and a selecting unit which selects, from the plurality of candidate viewpoints, one or more measurement viewpoints from which the object should be measured, on the basis of evaluation by the evaluating unit for each of the plurality of candidate viewpoints.

A plurality of neutral host network (NHN) deployments may share a common evolved packet core (EPC). When a plurality of NHNs share a common EPC, continuity and mobility may be facilitated for a user equipment (UE) when the UE moves between NHNs (e.g., because the NHNs share a common EPC). Accordingly, a UE may perform a tracking area update (TAU) procedure when moving between NHNs that share a common EPC. However, a UE may need to discover whether two NHNs share a common EPC in order to perform a TAU procedure. If the UE discovers that, when moving between a first NHN and a second NHN, the NHNs do not sure a common EPC, the UE may perform an attach procedure.

A plurality of neutral host network (NHN) deployments may share a common evolved packet core (EPC). When a plurality of NHNs share a common EPC, continuity and mobility may be facilitated for a user equipment (UE) when the UE moves between NHNs (e.g., because the NHNs share a common EPC). Accordingly, a UE may perform a tracking area update (TAU) procedure when moving between NHNs that share a common EPC. However, a UE may need to discover whether two NHNs share a common EPC in order to perform a TAU procedure. If the UE discovers that, when moving between a first NHN and a second NHN, the NHNs do not sure a common EPC, the UE may perform an attach procedure.

A signal interface unit for a distributed antenna system includes a channelized radio carrier interface configured to communicate an uplink channelized radio carrier for a radio frequency carrier to a channelized radio carrier base station interface; an antenna side interface configured to receive an uplink digitized radio frequency signal from the distributed antenna system communicatively coupled to the antenna side interface, wherein the uplink digitized radio frequency signal includes baseband data having bits; and a signal conversion module communicatively coupled between the channelized radio carrier interface and the antenna side interface and configured to convert between the uplink digitized radio frequency signal and the uplink channelized radio carrier at least in part by performing an adjustment of the bits included in the baseband data for the uplink digitized radio frequency signal received from the distributed antenna system to comply with requirements of the channelized radio carrier base station interface.

A signal interface unit for a distributed antenna system includes a channelized radio carrier interface configured to communicate an uplink channelized radio carrier for a radio frequency carrier to a channelized radio carrier base station interface; an antenna side interface configured to receive an uplink digitized radio frequency signal from the distributed antenna system communicatively coupled to the antenna side interface, wherein the uplink digitized radio frequency signal includes baseband data having bits; and a signal conversion module communicatively coupled between the channelized radio carrier interface and the antenna side interface and configured to convert between the uplink digitized radio frequency signal and the uplink channelized radio carrier at least in part by performing an adjustment of the bits included in the baseband data for the uplink digitized radio frequency signal received from the distributed antenna system to comply with requirements of the channelized radio carrier base station interface.

Techniques for co-existence on a shared communication medium are disclosed. An activation command may be received, over a backhaul connection and via a first Radio Access Technology (RAT), configuring the first RAT for active operation on a shared communication medium. An activity indicator may be generated based on the active operation of the first RAT. Based on the activity indicator, one or more measurements scheduled to be performed on the communication medium in accordance with a second RAT and a corresponding wakeup schedule may be disabled. Access of a first RAT to a shared communication medium may also be monitored. A priority indicator for the first RAT may be generated based on the monitored access. Based on the priority indicator, release of a backhaul connection on the communication medium that is associated with a second RAT may be coordinated.

A mesh network system includes an electronic control unit. The electronic control unit is configured to calculate a plurality of radio metric scores for a plurality of network interfaces for a first vehicle of a plurality of vehicles of a mesh network as a function of radio metrics in a current motion state of the first vehicle. The radio metrics indicate performance of the plurality of network interfaces in the current motion state of the first vehicle. The electronic control unit is further configured to select a desired network interface from the plurality of network interfaces comprising a desired radio metric score indicative of a desired performance in the current motion state.

A mesh network system includes an electronic control unit. The electronic control unit is configured to calculate a plurality of radio metric scores for a plurality of network interfaces for a first vehicle of a plurality of vehicles of a mesh network as a function of radio metrics in a current motion state of the first vehicle. The radio metrics indicate performance of the plurality of network interfaces in the current motion state of the first vehicle. The electronic control unit is further configured to select a desired network interface from the plurality of network interfaces comprising a desired radio metric score indicative of a desired performance in the current motion state.