JPWO2020254231A5

JPWO2020254231A5 -

Info

Publication number: JPWO2020254231A5
Application number: JP2021575531A
Authority: JP
Publication date: 2023-06-19
Anticipated expiration: 2040-06-15

Claims

memory;
a communication subsystem;
a controller;
a control device comprising
The control device is elected as the master control device from which the control device with the highest hierarchical level is allowed to periodically transmit beacon messages every beacon repetition time and to transmit commands to the control gear in the lighting control network. configured to connect to a lighting control network ,
The communication subsystem includes:
transmitting a local beacon message containing information about a local stratum level associated with the control device itself within a first period of time to inform devices on the network of the presence of the control device; and other devices on the network. monitoring the network during the first time period to detect potential beacon messages from
configured as
The controller is
evaluating whether the control device should be elected as the master control device based on the potential beacon message being detected by the communication subsystem during the first time period;
wherein the evaluation is performed by comparing the local stratum level of the control device with one or more other stratum levels included in the detected potential beacon messages;
A control device, wherein the first period of time begins when the control device is connected to the network, and wherein the first period of time is longer than the beacon repetition time.

Upon receiving at least one other beacon message by the communication subsystem during the first period of time, the controller, after the first period of time:
determining a highest stratum level among the local stratum level and a first set of stratum levels, wherein the first set of stratum levels is a stratum level received in the at least one other beacon message during the first time period; corresponding to
configured as
if the local stratum level is higher than a stratum level in the first set,
the controller is configured to elect the control device as the master control device and to store the local hierarchy level as the master hierarchy level in the memory;
The communication subsystem includes:
periodically transmit a local beacon message after each beacon repetition time as the master control device, and continuously monitor the network;
2. The control device of claim 1, configured to:

if the local stratum level is not higher than any stratum level in the first set,
said controller configured to store in said memory a highest hierarchical level received from said at least one other beacon message;
3. The control device of claim 2, wherein said communication subsystem is configured to continuously monitor said network.

If no other beacon message is received by the communication subsystem during the first period of time, the controller, after the first period of time:
configured to elect the control device as the master control device and store the local hierarchy level as the master hierarchy level in the memory;
The communication subsystem includes:
periodically transmit a local beacon message after each beacon repetition time as the master control device, and continuously monitor the network;
4. A control device according to any preceding claim, configured to:

The control device according to claim 1, wherein the information about the hierarchical level is one of classification number, hierarchy index, group index and category index.

6. A lighting control network system comprising at least one control device according to any one of claims 1 to 5 and at least one control gear, wherein the control device with the highest hierarchy level is elected as a master control device authorized to periodically transmit beacon messages and to transmit commands to the at least one control gear;
When the at least one control device detects that its local stratum level is the highest stratum level in the system, it elects itself as a master control device to periodically transmit a beacon message every beacon repetition time. wherein the beacon message includes the highest hierarchical level;
the master control device is configured to send commands to the at least one control gear;
The lighting control network system, wherein the at least one control gear is configured to execute the commands received from the master control device.

Lighting control, wherein the control device with the highest hierarchy level is elected as the master control device, which is allowed to transmit beacon messages periodically at the beacon repetition time and to send commands to the control gear in the lighting control network. A method of connecting a control device to a network, the method comprising:
transmitting a local beacon message containing information about a local stratum level associated with the control device itself within a first time period to notify devices on the network of the presence of the control device;
monitoring the network during the first time period to detect potential beacon messages from other devices on the network;
evaluating whether the control device should be elected as the master control device based on the potential beacon message being detected during the first time period , the evaluation comprising: with one or more other hierarchy levels included in the detected potential beacon message;
including
The method of claim 1, wherein the first period of time begins when the control device is connected to the network, and wherein the first period of time is longer than the beacon repetition time.

Upon receiving at least one other beacon message during the first period of time, the method, after the first period of time,
determining a highest stratum level among the local stratum level and a first set of stratum levels, wherein the first set of stratum levels includes the at least one other beacon message during the first time period; correspond to the hierarchy levels received in
if the local stratum level is higher than a stratum level in the first set,
electing the control device as the master control device and storing the local hierarchy level as the master hierarchy level;
periodically transmitting a local beacon message after each beacon repetition time as the master control device;
continuously monitoring the network;
8. The method of claim 7, comprising:

If the local stratum level is not higher than any stratum level in the first set, the method comprises:
storing the highest stratum level in the first set as a master stratum level;
continuously monitoring the network;
9. The method of claim 8, comprising:

If no other beacon messages are received during the first period of time, the method, after the first period of time,
electing the control device as the master control device and storing the local hierarchy level as the master hierarchy level;
periodically transmitting a local beacon message after each beacon repetition time as the master control device;
continuously monitoring the network;
10. A method according to any one of claims 7 to 9, comprising

After being connected to the network as a non-master controlled device, the method includes:
monitoring the network for detecting at least one beacon message for a duration of at least twice the beacon repetition time; upon receiving at least one beacon message;
determining a highest stratum level among the stored master stratum level and a second set of stratum levels, said second set of stratum levels for a duration of at least twice said beacon repetition time; corresponding to a hierarchy level received in the at least one beacon message;
if the stored master stratum level is not the same as the highest stratum level in the second set;
comparing the local stratum level to the highest stratum level in the second set;
if the local stratum level is higher than the highest stratum level in the second set,
electing the control device as the master control device and replacing the master hierarchy level with the local hierarchy level in memory;
periodically transmitting a local beacon message after each beacon repetition time as the master control device;
if the local stratum level is not higher than any stratum level in the second set,
replacing the master hierarchy level with the highest hierarchy level in the second set in the memory;
11. A method according to any one of claims 7 to 10, comprising

Upon not detecting at least one beacon message for a duration of at least twice the beacon repetition time, the method continues after the at least twice the beacon repetition time by:
electing the control device as the master control device and replacing the master hierarchy level with the local hierarchy level in the memory;
periodically transmitting a local beacon message after each beacon repetition time as the master control device;
12. The method of claim 11, comprising:

After being connected to the network as a master control device, the method comprises:
periodically transmitting a local beacon message after each beacon repetition time;
monitoring the network at each beacon repetition time interval between two adjacent beacon messages, the method receiving at least one other beacon message from at least one other control device by a communication subsystem; Upon receiving
determining a highest stratum level among the stored master stratum level and a third set of stratum levels, wherein the third set of stratum levels is the stratum level received in the at least one other beacon message; corresponding to and
if the highest stratum level in the third set is higher than the stored master stratum level;
ceasing to periodically transmit local beacon messages;
replacing, in memory, the master hierarchy level with the highest hierarchy level in the third set;
11. A method according to any one of claims 7 to 10, comprising

A computer program, comprising code means for causing a computer to perform a method according to any one of claims 7 to 13 when said computer program is run by a computer.