Abstract:
A spectrum sharing system includes a plurality of distributed repositories to receive and store information associated with usage of a shared frequency band by an incumbent user. A controller controls allocation of resources within the shared frequency band by a base station for use by a user equipment (UE). An access management entity is in communication with one or both of the controller and the plurality of distributed repositories. The access management entity to limit access by the controller to the information in the plurality of distributed repositories to prevent a level of knowledge of the incumbent user's usage of the shared frequency band.
Abstract:
An application management apparatus for controlling tasks, including a task split and response merge circuit configured to divide an application into a plurality of tasks and associate respective Key Performance Indicator (KPI) attributes to the plurality of tasks; and a task management circuit configured to allocate each of the plurality of tasks to a first or second Radio Access Technology (RAT) based on the KPI attributes, and to derive a plurality of task responses from the first or second RATs to which the respective plurality of tasks are allocated, wherein the task split and response merge circuit is further configured to merge the task responses to select the first or second RAT to run the application.
Abstract:
An application management apparatus for controlling tasks, including a task split and response merge circuit configured to divide an application into a plurality of tasks and associate respective Key Performance Indicator (KPI) attributes to the plurality of tasks; and a task management circuit configured to allocate each of the plurality of tasks to a first or second Radio Access Technology (RAT) based on the KPI attributes, and to derive a plurality of task responses from the first or second RATs to which the respective plurality of tasks are allocated, wherein the task split and response merge circuit is further configured to merge the task responses to select the first or second RAT to run the application.
Abstract:
A control node for operating in a network with shared channels includes one or more processors configured to execute program code to determine a rejection strategy for managing contention-based access to a shared channel by one or more transmitters, transmit or trigger transmission of a transmission request rejection in response to a transmission request by a first transmitter of the one or more transmitters according to the rejection strategy.
Abstract:
A control device of a vehicle control system is described comprising a receiver configured to receive traffic environment information, a processor configured to determine a reliability for the traffic environment information and a controller configured to generate a command signal for a vehicle based on the traffic environment information and the reliability.
Abstract:
An architecture to allow the spatial separation of information sources, information processing, and information consumption using objects and tags, including in mobile/multi-access edge computing (MEC) communication environments, is disclosed. In an example, a request for information provided to a network entity (such as a MEC entity) results in the receipt of an object and a tag, as a device operates in an operational area of an information service. The object provides data for the information service, and the tag provides the metadata related to a context of the information service and the object from another entity, for another entity located within the operational area of the location service. The use of this object, including in the form of an application, data, or user object type, allows a transfer and use of data and context for the information service that is independent from the access network.
Abstract:
Embodiments include apparatuses, methods, and systems that may test a UE for its idle period distribution. A test system may identify a set of bins in which a union of the set of bins may be equal to a contention window, wherein each individual bin of the set of bins may have an associated probability. A first bin of the set of bins may have a first associated probability, and a second bin of the set of bins may have a second associated probability that is larger than the first associated probability. Each individual idle period may be assigned to a corresponding bin of the set of bins. A UE may have a pass status or a failure status based on the individual idle periods assigned to the corresponding bin of the set of bins, and the associated probability for the bin. Other embodiments may also be described and claimed.
Abstract:
The disclosure relates to a mobile communication system, including: a first transmission path configured to transmit a message according to a first radio access technology; a second transmission path configured to transmit the message according to a second radio access technology; and an encoder configured to encode the message by a code before transmission of the message over the first transmission path and the second transmission path, wherein the code comprises at least two subcodes, and wherein the encoder is configured to encode the message intended for transmission over the first transmission path with a first subcode of the at least two subcodes and to encode the message intended for transmission over the second transmission path with a second subcode of the at least two subcodes.
Abstract:
Systems and methods that adapt software components encoded for execution by a virtual machine to the specific architecture of a target platform are provided. These systems and methods combine the portability benefits of a virtual machine architecture with the power conservation and computation efficiency benefits normally associated with native implementations. More particularly, in some embodiments, a compiler configured to compile software components encoded for execution by a virtual machine is enhanced to identify hardware processing elements available on a target platform and to adapt the software components to utilize the identified hardware processing elements. In at least one embodiment, the adaptation performed by the enhanced compiler takes the form of compression or extension.
Abstract:
Various techniques for collective perception messaging are disclosed herein. In an example, a machine receives, from a source device, a signal value for provision to a sink device, the signal value corresponding to a measurement of an environmental value. The machine accesses, from a storage device, an error term for the signal value. The machine accesses, from the storage device, a source reliability term for the source device. The machine accesses, from the storage device, a source-sink relation term based on the source device and the sink device. The machine determines a distribution for the environmental value based on the error term, the source reliability term, and the source-sink relation term. The machine determines, based on the distribution for the environmental value, whether the signal value is reliable.