Wireless network with clock synchronization
First Claim
1. A wireless network, comprising:
- a plurality of network nodes arranged to exchange data via a wireless medium, each of said nodes including, at least one electrical apparatus, and at least one radio device, wherein each network node includes a clock supply for supplying said electrical apparatus and the radio device with its clock, wherein a network node which is designated as a main network node is arranged to transmit, via its radio device, a synchronization pattern which is dependent on the clock of its clock supply, wherein all other network nodes, designated as secondary network nodes, are assigned to different, hierarchically ordered distance classes in dependence on their distance from the main network node which is assigned to the highest distance class, wherein all secondary network nodes of a distance class are arranged to transmit, via their respective radio device, a synchronization pattern which is dependent on the clock of their respective clock supply and characterizes the distance class, and wherein a secondary network node is arranged to synchronize its clock supply by means of at least one received synchronization pattern of a hierarchically higher distance class.
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Accused Products
Abstract
The invention relates to a wireless network with a plurality of network nodes, each of which consists of at least one electrical apparatus and at least one radio device which are arranged to exchange data via a wireless medium. A network node includes a clock supply for supplying all electrical apparatus and the radio device with its clock. A network node which is designated as a main network node transmits, via its radio device, a synchronization pattern which is dependent on the clock of its clock supply. All other network nodes, referred to as secondary network nodes, are assigned to different, hierarchically ordered distance classes in dependence on their distance from the main network node which is assigned to the highest distance class. All secondary network nodes of a distance class transmit, via their respective radio device, a synchronization pattern which is dependent on the clock of their respective clock supply and characterizes the distance class. A secondary network node synchronizes its clock supply by means of at least one received synchronization pattern of a hierarchically higher distance class.
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Citations
19 Claims
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1. A wireless network, comprising:
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a plurality of network nodes arranged to exchange data via a wireless medium, each of said nodes including, at least one electrical apparatus, and at least one radio device, wherein each network node includes a clock supply for supplying said electrical apparatus and the radio device with its clock, wherein a network node which is designated as a main network node is arranged to transmit, via its radio device, a synchronization pattern which is dependent on the clock of its clock supply, wherein all other network nodes, designated as secondary network nodes, are assigned to different, hierarchically ordered distance classes in dependence on their distance from the main network node which is assigned to the highest distance class, wherein all secondary network nodes of a distance class are arranged to transmit, via their respective radio device, a synchronization pattern which is dependent on the clock of their respective clock supply and characterizes the distance class, and wherein a secondary network node is arranged to synchronize its clock supply by means of at least one received synchronization pattern of a hierarchically higher distance class. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
wherein a secondary network node is arranged to measure, at given time intervals, the reception quality of all synchronization patterns, except for its own synchronization pattern, and wherein, after evaluation of the measurements, a secondary network node assigns itself with the distance class which is one distance class lower than the distance class of the synchronization pattern of the highest distance class of all synchronization patterns exhibiting a sufficiently high reception quality. -
4. A wireless network as claimed in claim 3, wherein after the measurement of the reception quality of all synchronization patterns, except for its own synchronization pattern, a secondary network node is arranged to transmit no longer its own synchronization pattern and assigns itself to a distance class which is one distance class lower if only the synchronization pattern it has thus far transmitted itself exhibits a sufficiently high reception quality.
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5. A wireless network as claimed in claim 1, wherein during the period in which a synchronization pattern is awaited, a secondary network node is arranged to correlate the received signal with a stored synchronization pattern and to indicate the reception of the synchronization pattern if the correlation result corresponds to an expected value.
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6. A wireless network as claimed in claim 5, wherein after the reception of a single synchronization pattern during the expected time, the correlator is arranged to output a pulse-shaped signal whose maximum value indicates the synchronization instant for the clock synchronization.
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7. A wireless network as claimed in claim 5,
wherein after the reception of a plurality of synchronization patterns during the expected time, the correlator is arranged to output a pulse-shaped signal with a plurality of maximum values wherefrom the synchronization instant for the clock synchronization is derived. -
8. A wireless network as claimed in claim 1,
wherein a radio device of a secondary network node includes an interface circuit, a protocol device, a modem and a high frequency circuit, and wherein the interface circuit is arranged to exchange data between the bus system and the protocol device and the protocol device is arranged at least to control the accessing of data from and to the wireless medium and to evaluate received data. -
9. A wireless network as claimed in claim 1, wherein all the synchronization patterns to be transmitted by the network nodes have an identical part and a second, different part for characterizing a distance class.
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10. The wireless network of claim 9, wherein the secondary network nodes are all adapted to transmit their synchronization patterns within a frame, the frame including a first time interval during which the secondary network nodes of a first distance class transmit a synchronization pattern characterizing the first distance class, and a second time interval during which the secondary network nodes of a second distance class transmit a synchronization pattern characterizing the second distance class, with a waiting time, Ta, between the first time interval and the second time interval.
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11. The wireless network of claim 9, wherein the clock supply includes a look-up table storing a value from which the network node can derive Ta.
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12. The wireless network of claim 9, wherein the secondary network node of a distance class i is adapted to calculate a time T, between a starting instant of a transmission of the synchronization pattern characterizing the main network node, and a terminating instant of a received synchronization pattern of distance class (i−
- 1) by a formula;
T=i(Tp+Ta), where Tp is a time duration of each synchronization pattern.
- 1) by a formula;
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13. The wireless network of claim 1, wherein the at least one electrical apparatus of at least one secondary network node includes one selected from the group consisting of a computer, a monitor, a video recorder, and a CD player.
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14. A network node of a wireless network which includes a plurality of further network nodes which are arranged to exchange data via a wireless medium, the network node comprising:
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at least one electrical apparatus, and at least one radio device, wherein the network node includes a clock supply for supplying said electrical apparatus and the radio device with its clock, wherein the network node which is designated as a secondary network node belongs to a distance class, forming part of a plurality of hierarchically ordered distance classes, in dependence on its distance from a main network node which belongs to the highest distance class, wherein the secondary network node is arranged to transmit, via its radio device, a synchronization pattern which is dependent on the clock of the relevant clock supply and characterizes its distance class, and wherein the secondary network node is arranged to synchronize its clock supply by means of at least one received synchronization pattern of a hierarchically higher distance class.
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15. A wireless network of nodes arranged into a plurality of hierarchically ordered distance classes and arranged to exchange data via a wireless medium, comprising:
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a main network node assigned to a highest distance class and including a clock supply; and
a plurality of secondary network nodes arranged into a plurality of distance classes hierarchically below the highest distance class based upon a distance between each said secondary network node and the main network node, each said secondary network node including;
a radio adapted to receive at least one synchronization pattern transmitted by a hierarchically higher distance class, and to transmit a synchronization pattern that includes information identifying the distance class of the secondary network node, at least one electrical apparatus, and a clock supply supplying the radio and electrical apparatus with a clock, and being adapted to synchronize the clock by means of the at least one synchronization pattern of a hierarchically higher distance class received and supplied by the radio. - View Dependent Claims (16, 17, 18, 19)
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Specification