Method and system of wireless TDMA communication for industrial machine-to-machine communication

What is claimed is: 1. A communication method for wireless communication using a TDMA (Time Division Multiple Access) super-frame structure for scheduling uplink and downlink transmissions between a first node and a second node that each comprise a clock, wherein the communication method is performed by the second node, the method comprising: receiving a downlink transmission from the first node; and transmitting an uplink response to the first node, the transmitting of the uplink response being performed in an uplink frame of the TDMA super-frame structure, wherein the uplink frame comprises a field for uplink payload data and a field for time indicating data, wherein transmitting the uplink response includes transmitting time stamps in the time indicating data field, the time stamps indicating a time instance of the receiving of the downlink transmission and a time instance of the transmitting of the uplink response, wherein the time instances are determined using the clock of the second node. 2. The communication method of claim 1 , wherein the uplink frame comprises a field for acknowledgements and wherein transmitting the uplink response includes transmitting an acknowledgement indicating the receiving of the downlink transmission. 3. The communication method of claim 1 , wherein the received downlink transmission comprises synchronization data, the method further comprising: synchronizing the clock based on the synchronization data, wherein the synchronizing is performed between the receiving of the downlink transmission and the transmitting of the uplink response; and adjusting the time instances in accordance with the synchronization data. 4. The communication method of claim 1 , comprising receiving a further downlink transmission that comprises synchronization data, and synchronizing the clock based on the synchronization data of the further downlink transmission. 5. A communication node comprising: a communication interface; a clock; and a register configured to register times of reception and transmission and for time stamping transmissions, the communication node being configured to perform the communication method of claim 1 . 6. The communication node according to claim 5 , further comprising a synchronizer configured to adjust the clock. 7. A communication method for wireless communication using a TDMA (Time Division Multiple Access) super-frame structure for scheduling uplink and downlink transmissions, the communication method being performed by a first communication node that comprises a clock, the communication method comprising: transmitting a downlink beacon to a plurality of communication nodes; registering a time instance of transmitting the downlink beacon; receiving an uplink response from a second node of the communication nodes, wherein the uplink response comprises time stamps indicating a time instance of reception of the downlink beacon at the second node, and a time instance of transmitting the uplink response by the second node; registering a time instance of receiving the response; calculating a clock offset between the first communication node and the second node; calculating a propagation delay between the first communication node and the second node, wherein calculating the clock offset and the propagation delay is based on the registered time instances of the downlink transmission and uplink response and on the time stamps indicating time of reception of the downlink beacon and indicating the time of transmission of the response; and transmitting a further downlink beacon and including indicating the calculated clock offset and the calculated propagation delay in a field for synchronization data provided in the downlink beacon. 8. A communication node configured to perform the communication method of claim 7 as the first communication node, the communication node comprising: a communication interface for wireless communication with other communication nodes; a time register configured to perform the registering steps; a time offset calculator configured to perform the step of calculating the clock offset; and a propagation delay calculator configured to perform the step of the propagation delay. 9. The communication node according to claim 8 further comprising acknowledging means for acknowledging received transmissions, the communication node being configured to include acknowledgements of received uplink frames in a field in the transmitted downlink beacon. 10. A communication method for wireless communication using TDMA for communication between a first node and a plurality of second nodes, the TDMA communication comprising using a super-frame structure for scheduling uplink data transmissions from the second nodes to the first node and scheduling downlink data transmissions from the first node to the second nodes, the method comprising: transferring a downlink beacon from the first node to the second nodes; transferring an uplink transmission as a response to the downlink transmission from one second node of the second nodes to the first node, calculating a clock offset and a propagation delay between the first node and the one second node using a time instance of transmitting the downlink beacon by the first node, a time instance of receiving the downlink beacon by the one second node, a time instance of transmitting the response by the one second node and a time instance of receiving the response in the first node; and synchronizing the first node and the second node, the synchronizing including transferring a subsequent downlink beacon including an indication of the clock offset and the propagation delay in a synchronization field of the subsequent downlink beacon. 11. The communication method according to claim 10 , further comprising: registering a time instance of transfer of a first frame by the first node as the time instance of transmitting the downlink beacon by the first node and a time instance of receiving the first frame by the one second node as the time instance of receiving the downlink beacon by the one second node; and registering a time of transfer of a response frame, as the time instance of transmitting the response by the one second node and the time of receiving the response frame by the first node as the time instance of receiving the response by the first node, wherein the calculating of offset and delay are based on the registered time instances. 12. The communication method according to claim 10 , wherein the response includes a first and a second time stamp in a time indicating field of the response, wherein the first time stamp indicates the time of reception of the downlink beacon and the second time stamp indicates the time of transmission of the response. 13. The communication method according to claim 10 , wherein the response includes an acknowledgement of the reception of the downlink beacon in an acknowledgement field of the response. 14. A communication method comprising: wirelessly communicating using TDMA (Time Division Multiple Access) between a first node and a plurality of second nodes using a TDMA super-frame structure for scheduling uplink data transmissions from the second nodes to the first node and scheduling downlink data transmissions from the first node to the second nodes; wherein the TDMA super-frame structure comprises a first frame configured for a downlink beacon and a set of second frames, each second frame dedicated for uplink transmissions from a respective one of the plurality of second nodes; and wherein each second frame comprises a field configured for transmitting time indicating data to the first node, o