A system on chip including a first master circuit, a second master circuit, a routing circuit, a bridge control circuit, and a peripheral circuit is provided. The first master circuit provides a first command. The second master circuit provides a second command. The routing circuit receives the first command and the second command and provides an output command. The bridge control circuit receives the output command and stores an attribute setting value. In response to the routing circuit receiving the first command and the first command pointing to the peripheral circuit, the routing circuit uses the first command as the output command and the bridge control circuit determines whether attribute information of the output command matches the attribute setting value. In response to the attribute information of the output command matching the attribute setting value, the bridge control circuit provides the output command to the peripheral circuit.

A system on chip including a first master circuit, a second master circuit, a routing circuit, a bridge control circuit, and a peripheral circuit is provided. The first master circuit provides a first command. The second master circuit provides a second command. The routing circuit receives the first command and the second command and provides an output command. The bridge control circuit receives the output command and stores an attribute setting value. In response to the routing circuit receiving the first command and the first command pointing to the peripheral circuit, the routing circuit uses the first command as the output command and the bridge control circuit determines whether attribute information of the output command matches the attribute setting value. In response to the attribute information of the output command matching the attribute setting value, the bridge control circuit provides the output command to the peripheral circuit.

An apparatus is provided that includes a ground plane having a perimeter, at least one support positioned within the perimeter of the ground plane and extending outwardly from the ground plane and at least one multi-port antenna supported by the support at a distance from the ground plane. The multi-port antenna has a different radiation pattern associated with each port. The multi-port antenna operates with a first radiation pattern when a first port is used and operates with a second radiation pattern, different to the first radiation pattern, when a second port, different to the first port, is used. The at least one support defines a slot positioned between the multi-port antenna and the ground plane and/or the ground plane defines a slot.

Methods and apparatuses are disclosed for reducing image interference in uplink transmission. In one embodiment, a wireless device (WD) is configured to receive an indication of a resource allocation from the network node; determine an uplink center frequency based at least in part on a center frequency of a resource allocated by the received indication of the resource allocation; and transmit uplink information according to the determined uplink center frequency.

Methods and apparatuses are disclosed for reducing image interference in uplink transmission. In one embodiment, a wireless device (WD) is configured to receive an indication of a resource allocation from the network node; determine an uplink center frequency based at least in part on a center frequency of a resource allocated by the received indication of the resource allocation; and transmit uplink information according to the determined uplink center frequency.

This disclosure describes using a dynamic proxy for securing communications between a source within a cloud environment and an application container. The techniques include intercepting traffic directed to an application container, analyzing the traffic and traffic patterns, and allowing or preventing the traffic from being delivered to the application container based on the analysis. A traffic analysis engine may determine whether the traffic is considered safe and is to be allowed to be delivered to the application container, or whether the traffic is considered unsafe and is to be prevented from being delivered to the application container, According to some configurations, the address(es) to the network interfaces (e.g., WIFI or Eth0) are abstracted to help ensure security of the application containers.

An information processing method for an electronic device includes obtaining orientation information of the electronic device, determining an area having a specified angle based on the orientation information, identifying one or more Internet of Things (IoT) device in the area, determining that the electronic device has an authority to display information of the one or more IoT device, and receiving and displaying the information of the one or more IoT device.

An information processing method for an electronic device includes obtaining orientation information of the electronic device, determining an area having a specified angle based on the orientation information, identifying one or more Internet of Things (IoT) device in the area, determining that the electronic device has an authority to display information of the one or more IoT device, and receiving and displaying the information of the one or more IoT device.

In an approach to improve recommendation generating through IoT devices, embodiments abstract specific messaging formats from various IoT devices, map, the abstracted messaging formats to a canonical model associated to device types using based on collected IoT device data, and determine a context of data received from the plurality of IoT devices based on the type of IoT device and historical trend analysis of canonical data points from similar device types. Further, embodiments derive an association between data points among the plurality of IoT devices in a solution, determine one or more contexts of the established data point associations in the solution, and recommend one or more charts, events, and associated data based on a derived context and a visualization map. Additionally, embodiments output, by a user interface, the recommended chart events and associated data.

In an approach to improve recommendation generating through IoT devices, embodiments abstract specific messaging formats from various IoT devices, map, the abstracted messaging formats to a canonical model associated to device types using based on collected IoT device data, and determine a context of data received from the plurality of IoT devices based on the type of IoT device and historical trend analysis of canonical data points from similar device types. Further, embodiments derive an association between data points among the plurality of IoT devices in a solution, determine one or more contexts of the established data point associations in the solution, and recommend one or more charts, events, and associated data based on a derived context and a visualization map. Additionally, embodiments output, by a user interface, the recommended chart events and associated data.