Power back-off for limiting emissions and power consumption

What is claimed is: 1 . A network coordination processor sharing a communication medium with a first node, the first node operable to transmit data on the communication medium at a transmission power level, the network coordination processor comprising: a transmitter operable to send a request message to the first node, the request message instructing the first node to adjust the transmission power level; a memory device operable to store a Quality of Service (QoS) requirement; a network utilization module operable to determine a target network utilization based, at least in part, on the QoS requirement stored in the memory device, the network utilization module further operable to determine an actual network utilization, wherein the network coordination processor is operable to instruct the first node to reduce the transmission power level during a time when the actual network utilization is determined to be less than the target network utilization. 2 . The network coordination processor of claim 1 : wherein the actual network utilization represents a percentage of time that the communication medium is utilized; and wherein reducing the transmission power level causes the first node to transmit for longer periods of time and the actual network utilization to increase to a level that is still less than or equal to the target network utilization. 3 . The network coordination processor of claim 1 , wherein the network coordination processor determines the target network utilization based, at least in part, on historical data. 4 . The network coordination processor of claim 3 , wherein the network utilization module determines the target network utilization based, at least in part, on at least one node-level metric selected from the group comprising a data rate, average latency, and jitter characteristics associated with the first node. 5 . The network coordination processor of claim 3 , wherein the network utilization module determines the target network utilization based, at least in part, on the number of known nodes and the number of currently active nodes. 6 . The network coordination processor of claim 1 , wherein the network utilization module determines the target network utilization based, at least in part, on user configuration. 7 . The network coordination processor of claim 1 , wherein the network utilization module increases the target network utilization upon determining that a second node becomes active on the communication medium. 8 . The network coordination processor of claim 1 , wherein the QoS requirement stored in the memory device corresponds to the data transmitted by the first node. 9 . The network coordination processor of claim 1 , wherein the QoS requirement corresponds to the communication medium. 10 . The network coordination processor of claim 1 , wherein the network coordination processor is integrated into an access point operable to provide external data to the first node over the communication medium. 11 . A method of reducing noise emissions of a powerline communication system comprising a first node transmitting data to a second mode over a communication medium using a transmission power level, the method comprising: determining, by a network coordination processor in communication with the first node, a target network utilization based, at least in part, on a Quality of Service (QoS) requirement; determining, by the network coordination processor, an actual network utilization; and reducing, by the network coordination processor, the transmission power level during a time when the actual network utilization is less than the target network utilization. 12 . The method of claim 11 : wherein the actual network utilization represents a percentage of time that the communication medium is utilized; and wherein reducing the transmission power level causes the first node to transmit for longer periods of time and the actual network utilization to increase to a level that is still less than or equal to the target network utilization. 13 . The method of claim 11 , wherein the network coordination processor determines the target network utilization based, at least in part, on historical data. 14 . The method of claim 13 , wherein the network coordination processor determines the target network utilization based, at least in part, on at least one node-level metric selected from the group comprising a data rate, average latency, and jitter characteristics associated with the first node. 15 . The method of claim 13 , wherein the network coordination processor determines the target network utilization based, at least in part, on the number of known nodes and the number of currently active nodes. 16 . The method of claim 11 , wherein the network coordination processor determines the target network utilization based, at least in part, on user configuration. 17 . The method of claim 11 , further comprising: increasing, by the network coordination processor, the target network utilization upon determining that a third node becomes active on the communication medium. 18 . The method of claim 11 , wherein the QoS requirement corresponds to the data transmitted by the first node. 19 . The method of claim 11 , wherein the QoS requirement corresponds to the communication medium. 20 . The method of claim 11 , wherein the network coordination processor is integrated into an access point operable to provide external data to the first and second nodes over the communication medium. 21 . An access point sharing a communication medium with a first node, the first node transmitting data on the communication medium at a transmission power level, the access point comprising: a port for communicating with an external network to establish internet connectivity for the access point; a powerline communication modem coupled to the communication medium; a network coordination processor in communication with the powerline communication modem, the network coordination processor operable to change the transmission power level used by the first node, wherein the network coordination processor is further operable to determine a target network utilization based, at least in part, on a Quality of Service (QoS) requirement; wherein the network coordination processor is further operable to determine an actual network utilization; and wherein the network coordination processor is further operable to reduce the transmission power level used by the first node during a time when the actual network utilization is less than the target network utilization. 22 . The access point of claim 21 , wherein the port is operable to communicate using a broadband powerline protocol. 23 . The access point of claim 21 , further comprising: a wireless transceiver operable to provide wireless connections to wireless local devices. 24 . The access point of claim 21 , wherein the actual network utilization represents a percentage of time that the communication medium is utilized; and wherein reducing the transmission power level causes the first node to transmit for longer periods of time and the actual network utilization to increase to a level that is still less than or equal to the target network utilization. 25 . The access point of claim 21 , wherein the network coordination processor determines the target network utilization based, at least in part, on historical data.