What is claimed is:
1. A method of transmitting data from a plurality of optical network units to an optical line termination in a gigabit Ethernet-passive optical network system, the method comprising the steps of:
receiving, by the optical line termination, one or more bandwidth allocation request signals from the plurality of optical network units at a start of a first cycle;
allocating bandwidths to the plurality of optical network units in response to the bandwidth allocation request signals; and
transmitting the allocated bandwidths result to the plurality of optical network units before a beginning of a second cycle that follows the first cycle.
2. The method of claim 1, further comprising the step of transmitting data, by the plurality of optical network units, to the optical line termination in accordance with the respective allocated bandwidths.
3. The method of claim 2, wherein the data transmission of the plurality of optical network units is performed in the second cycle.
4. The method of claim 1, wherein the bandwidth allocation for the bandwidth allocation request signals that reach the optical line termination after allocating the transmission bandwidths to the plurality of optical network units starts in the first cycle is performed in the second cycle.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A method of transmitting signaling messages, the method being performed by a first base station of a communication network, the method comprising:
providing a service to a terminal, the service being further provided to the terminal by at least a second base station of the communication network,
determining a first roundtrip time for a signaling message, the first roundtrip time corresponding to a first time period required to transmit a signaling message from the first base station to the second base station via the relay component and to receive a response from the second base station via the relay component at the first base station, the relay component being linked through a radio link of the communication network with the first base station and through a radio link of the communication network with the second base station;
determining a second roundtrip time for the signaling message, the second roundtrip time corresponding to a second time period required to transmit the signaling message from the first base station to the second base station via a fixed communication path of the communication network, and to receive the response from the second base station at the first base station via the fixed communication path; and
transmitting signaling messages relating to the service to the second base station via the relay component, if the first roundtrip time is shorter than the second roundtrip time, and otherwise transmitting the signaling messages to the second base station via the fixed communication path.
2. The method according to claim 1, further comprising receiving responses to the signaling messages from the second base station, wherein the responses are sent via the radio links of the communication network and the relay component from the second base station to the first base station.
3. The method according to claim 2, further comprising employing encryption means to encrypt the signaling messages before transmission or to cryptographically sign the signaling messages, and employing decryption means to decrypt the responses after reception.
4. The method according to claim 2, wherein the signaling messages and the responses relate to scheduling messages exchanged between the first and second base station, wherein a scheduling message is exchanged with respect to a datagram or a burst of datagrams, wherein the datagram or the burst of datagrams are to be simultaneously transmitted by the first and second base stations to the terminal, wherein the scheduling message is employed to synchronize the transmission of the datagram or the burst of datagrams between the first base station and the second base station.
5. The method according to claim 1, wherein the relay component is comprised in the terminal or in another terminal serviced by the first base station and the second base station.
6. A non-transitory computer program product comprising computer executable instructions, the instructions perform steps of the method according to claim 1.
7. A base station, the base station relating to a first base station, the first base station comprising:
means for providing a service to a terminal, the service being further provided to the terminal by at least a second base station of the communication network;
means for determining a first roundtrip time for a signaling message, the first roundtrip time corresponding to a first time period required to transmit a signaling message from the first base station to a second base station via a relay component and to receive a response from the second base station via the relay component at the first base station;
means for determining a second roundtrip time for the signaling message, the second roundtrip time corresponding to a second time period required to transmit the signaling message from the first base station to the second base station via a fixed communication path of the communication network and to receive the response from the second base station at the first base station via the fixed communication path, wherein the relay component is linked via radio links with the first base station and the second base station, wherein the second base station provides the service simultaneously with the first base station to the terminal; and
means for transmitting the signaling messages relating to the service to the second base station via the relay component, if the first roundtrip time is shorter than the second roundtrip time, and otherwise transmitting the signaling messages to the second base station via the fixed communication path.
8. A relay component or a communication network, the relay component comprising:
means for communication with a first base station and a second base station of the communication network via radio links of the communication network;
means for receiving signaling messages from the first base station, the first base station and the second base station simultaneously provides a service to a terminal, wherein the signaling messages relate to the service, wherein the first base station determines a first roundtrip time for a signaling message, the first roundtrip time corresponding to the time period required to transmit a signaling message from the first base station to the second base station via the relay component and to receive a response from the second base station via the relay component at the first base station;
means for forwarding the signaling messages to the second base station,
means for receiving responses with respect to the signaling messages from the second base station, wherein the first base station further determines a second roundtrip time for the signaling message, the second roundtrip time corresponding to the time period required to transmit the signaling message from the first base station to the second base station via a fixed communication path of the communication network, and to receive the response from the second base station at the first base station via the fixed communication path;
means for forwarding the responses to the first base station if the first roundtrip time is shorter than the second roundtrip time.
9. A communication network comprising a first base station, the first base station comprising:
means for providing a service to a terminal, the service being further provided to the terminal by at least a second base station of the communication network;
means for determining a first roundtrip time for a signaling message, the first roundtrip time corresponding to a first time period required to transmit a signaling message from the first base station to a second base station via a relay component and to receive a response from the second base station via the relay component at the first base station;
means for determining a second roundtrip time for the signaling message, the second roundtrip time corresponding to a second time period required to transmit the signaling message from the first base station to the second base station via a fixed communication path of the communication network, and to receive the response from the second base station at the first base station via the fixed communication path; and
means for transmitting signaling messages relating to the service to the second base station via the relay component, if the first time period is shorter than the second time period, and otherwise transmitting the signaling messages to the second base station via the fixed communication path.
10. A method of transmitting signaling messages, the method being performed by a first base station of a communication network, the method comprising:
providing a service to a terminal, the service being further provided to the terminal by at least a second base station of the communication network;
transmitting the signaling messages to the second base station via a relay component, the signaling messages relating to the provision of the service to the terminal, the relay component being linked through a radio link of the communication network with the first base station and through a radio link of the communication network with the second base station; and
receiving responses to the signaling messages from the second base station, wherein the responses are sent via the radio links of the communication network and the relay component from the second base station to the first base station, wherein the signaling messages and the responses relate to scheduling messages exchanged between the first and second base station, wherein a scheduling message is exchanged with respect to a datagram or a burst of datagrams, wherein the datagram or the burst of datagrams are to be simultaneously transmitted by the first and second base stations to the terminal, and wherein the scheduling message is employed to synchronize the transmission of the datagram or the burst of datagrams between the first base station and the second base station.
11. The method according to claim 10, further comprising employing encryption means to encrypt the signaling messages before transmission or to cryptographically sign the signaling messages, and employing decryption means to decrypt the responses after reception.
12. The method according to claim 10, wherein the relay component is comprised in the terminal or in another terminal serviced by the first base station and the second base station.
13. A non-transitory computer program product comprising computer executable instructions, the instructions perform steps of the method according to claim 10.
14. A base station, the base station relating to a first base station, the first base station comprising:
means for providing a service to a terminal;
means for transmitting signaling messages to a second base station via a relay component, wherein the signaling messages relate to the service, wherein the relay component is linked via radio links with the first base station and the second base station, wherein the second base station provides the service simultaneously with the first base station to the terminal; and
means for receiving responses to the signaling messages from the second base station, wherein the responses are sent via the radio links of the communication network and the relay component from the second base station to the first base station, wherein the signaling messages and the responses relate to scheduling messages exchanged between the first and second base station, wherein a scheduling message is exchanged with respect to a datagram or a burst of datagrams, wherein the datagram or the burst of datagrams are to be simultaneously transmitted by the first and second base stations to the terminal, and wherein the scheduling message is employed to synchronize the transmission of the datagram or the burst of datagrams between the first base station and the second base station.
15. A relay component for a communication network, the relay component comprising:
means for communication with a first base station and a second base station of the communication network via radio links of the communication network;
means for receiving signaling messages from the first base station, the first base station and the second base station simultaneously provides a service to a terminal, wherein the signaling messages relate to the service;
means for forwarding the signaling messages to the second base station,
means for receiving responses with respect to the signaling messages from the second base station;
means for forwarding the responses to the first base station; and
means for receiving responses to the signaling messages from the second base station, wherein the responses are sent via the radio links of the communication network and the relay component from the second base station to the first base station, wherein the signaling messages and the responses relate to scheduling messages exchanged between the first and second base station, wherein a scheduling message is exchanged with respect to a datagram or a burst of datagrams, wherein the datagram or the burst of datagrams are to be simultaneously transmitted by the first and second base stations to the terminal, and wherein the scheduling message is employed to synchronize the transmission of the datagram or the burst of datagrams between the first base station and the second base station.
16. A communication network comprising a first base station, the first base station comprising:
means for providing a service to a terminal;
means for transmitting signaling messages relating to the service to the second base station via the relay component, if the first time period is shorter than the second time period, and otherwise transmitting the signaling messages to the second base station via the fixed communication path; and
means for receiving responses to the signaling messages from the second base station, wherein the responses are sent via the radio links of the communication network and the relay component from the second base station to the first base station, wherein the signaling messages and the responses relate to scheduling messages exchanged between the first and second base station, wherein a scheduling message is exchanged with respect to a datagram or a burst of datagrams, wherein the datagram or the burst of datagrams are to be simultaneously transmitted by the first and second base stations to the terminal, and wherein the scheduling message is employed to synchronize the transmission of the datagram or the burst of datagrams between the first base station and the second base station.