Some demonstrative embodiments include apparatuses, systems and/or methods of negotiating a range measurement protocol. For example, an initiator station may be configured to transmit a negotiation request message to a responder station and receive a negotiation response message from the responder station to negotiate a range measurement protocol to perform a range measurement procedure with the responder station, the negotiation request message including an initiator protocol element including an indication of one or more initiator range measurement protocols supported by the initiator station, the negotiation response message including a compatibility indication to indicate whether or not at least one of the initiator range measurement protocols is compatible with at least one responder range measurement protocol supported by the responder station; and based on the compatibility indication, select to perform the range measurement procedure with the responder station or to abort communication with the responder station.

Attributes are applied to Internet-of-Things (IoT) devices to establish high quality connections between the devices. Agents of the devices are assigned to interest-based cells in a virtual space, and can travel among the cells. Within the cells, pairs of devices are tested for similarity, based on device profiles, and for detected affinity. Devices having affinity are connected and form a logical network of IoT devices. Some attributes can be based on a personality model and can reflect the personality of a user or other principal associated with a device. The user or principal attributes can influence requests for affinity testing, calculation of similarity, and further behavioral effects incorporated in affinity determination. Disclosed embodiments provide scalable, distributed, autonomous, and unsupervised device-to-device connectivity, free of prior constraints. Associated infrastructure, simulations, performance metrics, and variations are disclosed.

Various aspects pertaining to apparatuses, methods, and computer-readable medium are described herein. Some aspects pertain to wireless communication between various apparatuses, such as an access point (AP) and a station (STA). The AP may have a radio, and the STA may have a first radio and a second radio. The radios may have various power states. Some aspects pertain to negotiation of various communication parameters. Some aspects pertain to communication of a packet and execution of various related operations. Some aspects pertain to certain uplink (UL) and/or downlink (DL) communications. Some aspects pertain to termination or teardown of the negotiated parameters. The written description and appended drawings provide detailed descriptions regarding these and many other aspects.

Various aspects pertaining to apparatuses, methods, and computer-readable medium are described herein. Some aspects pertain to wireless communication between various apparatuses, such as an access point (AP) and a station (STA). The AP may have a radio, and the STA may have a first radio and a second radio. The radios may have various power states. Some aspects pertain to negotiation of various communication parameters. Some aspects pertain to communication of a packet and execution of various related operations. Some aspects pertain to certain uplink (UL) and/or downlink (DL) communications. Some aspects pertain to termination or teardown of the negotiated parameters. The written description and appended drawings provide detailed descriptions regarding these and many other aspects.

The present disclosure provides a system for a game application host system and game application that can determine the hardware characteristics of a user computing system for use during online matchmaking in a multiplayer game application. The game application can include a hardware analysis module that can evaluate the user computing system to determine the speed and operational characteristics of the hardware. The hardware characteristics can be used for matchmaking by a matchmaking module of the host application system to select hosts and users for a game match. The hardware analysis module that can run tests, such as a data throughput analysis and a processing analysis, to evaluate and rate the user computing system. The ratings can be incorporated into the matchmaking analysis along with other matchmaking characteristics, such as latency, player skill level, geographical location, and other existing matchmaking characteristics, in order to selects users for game matches.

The present disclosure provides a system for a game application host system and game application that can determine the hardware characteristics of a user computing system for use during online matchmaking in a multiplayer game application. The game application can include a hardware analysis module that can evaluate the user computing system to determine the speed and operational characteristics of the hardware. The hardware characteristics can be used for matchmaking by a matchmaking module of the host application system to select hosts and users for a game match. The hardware analysis module that can run tests, such as a data throughput analysis and a processing analysis, to evaluate and rate the user computing system. The ratings can be incorporated into the matchmaking analysis along with other matchmaking characteristics, such as latency, player skill level, geographical location, and other existing matchmaking characteristics, in order to selects users for game matches.

Data services are often provided with various performance guarantees. Multi-master architectures, in which multiple master servers are permitted to update a portion of the data set, may facilitate some performance requirements, but may also lead to data version conflicts in which different masters have written different versions of one or more data items. Moreover, conflicts involving different data items may have to be resolved using different conflict resolution techniques. Therefore, various data items of the data set may be associated with a conflict resolution technique selected from a conflict resolution technique set, such as manual conflict resolution; a write order policy, such as last writer wins; a conflict resolution logic; and conflict resolution based on data types. A data version conflict may be resolved by identifying and invoking the selected conflict resolution technique that is associated with the data item, and applying the conflict resolution outcome to the data item.

Data services are often provided with various performance guarantees. Multi-master architectures, in which multiple master servers are permitted to update a portion of the data set, may facilitate some performance requirements, but may also lead to data version conflicts in which different masters have written different versions of one or more data items. Moreover, conflicts involving different data items may have to be resolved using different conflict resolution techniques. Therefore, various data items of the data set may be associated with a conflict resolution technique selected from a conflict resolution technique set, such as manual conflict resolution; a write order policy, such as last writer wins; a conflict resolution logic; and conflict resolution based on data types. A data version conflict may be resolved by identifying and invoking the selected conflict resolution technique that is associated with the data item, and applying the conflict resolution outcome to the data item.

A computing device may receive, from a collector device, a request to subscribe, in a target-defined mode, to network telemetry data regarding a network element associated with the computing device. The computing device may, in response to receiving the request, provision a network telemetry sensor to operate in a working mode to collect the network telemetry data regarding the network element. The collector device may send, to the collector device, the network telemetry data collected by the network telemetry sensor, wherein the network telemetry data indicates the working mode of the network telemetry sensor.

A computing device may receive, from a collector device, a request to subscribe, in a target-defined mode, to network telemetry data regarding a network element associated with the computing device. The computing device may, in response to receiving the request, provision a network telemetry sensor to operate in a working mode to collect the network telemetry data regarding the network element. The collector device may send, to the collector device, the network telemetry data collected by the network telemetry sensor, wherein the network telemetry data indicates the working mode of the network telemetry sensor.