Systems and method are provided for dynamically adjusting relay methodology based on current radio frequency channel conditions by selecting an optimal relay method. Radio relay systems that can dynamically adapt their relay modes in accordance with embodiments of the present disclosure can achieve useful power savings over conventional relay systems designed for worst case scenario operation.

A communication cell may use a wireless in-band backhaul to route backhaul traffic to a macrocell of a carrier network such that the backhaul traffic is delivered to a core network of the carrier network. The communication cell may route backhaul traffic of user devices via the wireless in-band backhaul between the communication cell and the macrocell. The wireless in-band backhaul may take place of a dedicated backhaul between the communication cell and the core network. As the backhaul traffic is routed, if a characteristic of the wireless communication between the communication cell and the macrocell fails to meet a threshold, an antenna of the communication cell may be electrically or mechanically adjusted to improve the characteristic of the wireless communication. The adjustment of the antenna includes performing a beam forming or moving one or more antenna elements of the antenna.

A wireless relay wirelessly receives user data from User Equipment (UE) using a UE uplink Carrier Aggregation (CA) configuration. The wireless relay wirelessly transfers the user data using a relay uplink. The wireless relay determines available Power Headroom (PHR) for the relay uplink and translates the available PHR into a new UE uplink CA configuration. The wireless relay wirelessly receives additional user data from the UE using the new UE uplink CA configuration.

In order to achieve a more efficient data transmission, an RN 200, which is to relay communications between UE 300 and a DeNB 100, notifies, in advance, the DeNB 100 of a timing at which RN 200 can transmit, to the DeNB 100, upstream data received from the UE 300, and thereafter the RN 200 transmits the upstream data to the DeNB 100.

In order to achieve a more efficient data transmission, an RN 200, which is to relay communications between UE 300 and a DeNB 100, notifies, in advance, the DeNB 100 of a timing at which RN 200 can transmit, to the DeNB 100, upstream data received from the UE 300, and thereafter the RN 200 transmits the upstream data to the DeNB 100.

A method using energy harvesting including receiving, by a relay node, first information signals transmitted from a source node and second information signals transmitted from a destination node, harvesting, by the relay node, energy using energy signals transmitted from the source node while bi-directionally relaying the first information signals and the second information signals; receiving, by the source node, information signals transmitted by the relay node; and receiving, by the destination node, the information signals relayed by the relay node. The source node, the relay node, and the destination node are devices for performing communication in a full-duplex mode.

A method using energy harvesting including receiving, by a relay node, first information signals transmitted from a source node and second information signals transmitted from a destination node, harvesting, by the relay node, energy using energy signals transmitted from the source node while bi-directionally relaying the first information signals and the second information signals; receiving, by the source node, information signals transmitted by the relay node; and receiving, by the destination node, the information signals relayed by the relay node. The source node, the relay node, and the destination node are devices for performing communication in a full-duplex mode.

An information processing system includes a relay device and first and second information processing devices. The relay device includes a reception unit that receives from a communication terminal a process request indicating first and second processes; and a terminal request transmission unit that sends the process request to the first information processing device in response to a first request, and sends an execution result of the first process and the process request to the second information processing device in response to a second request. The first information processing device includes a first process control unit that controls execution of the first process according to the process request; and a transmission unit that sends the execution result in response to the process request. The second information processing device includes a second process control unit that controls execution of the second process based on the execution result according to the process request.

An information processing system includes a relay device and first and second information processing devices. The relay device includes a reception unit that receives from a communication terminal a process request indicating first and second processes; and a terminal request transmission unit that sends the process request to the first information processing device in response to a first request, and sends an execution result of the first process and the process request to the second information processing device in response to a second request. The first information processing device includes a first process control unit that controls execution of the first process according to the process request; and a transmission unit that sends the execution result in response to the process request. The second information processing device includes a second process control unit that controls execution of the second process based on the execution result according to the process request.

A wireless communication network controls Carrier Aggregation (CA), a donor base station wirelessly serves a wireless relay and the donor base station and the wireless relay wirelessly serve User Equipment (UE). The wireless relay wirelessly exchanges user data with a UE using CA based on an initial relay to UE (R2UE) CA threshold. The donor base station determines a donor base station utilization amount and processes the donor base station utilization amount to determine a modified R2UE CA threshold. The donor base station wirelessly transfers an instruction to the wireless relay indicating the modified R2UE CA threshold. The wireless relay wirelessly receives the modified R2UE CA threshold and exchanges additional user data with the UE using CA based on the modified R2UE CA threshold.