1. A refrigerator with health monitoring system comprising:
a) a refrigerator comprising a chamber with a top surface, a bottom surface, a front surface, a rear surface, side surfaces, and a control board on the top surface; and
b) a blood pressure measuring device installed on the control board;
c) a body temperature measuring device installed on the control board; and
d) a blood sugar testing device installed on the control board.
2. The refrigerator with health monitoring system of claim 1, wherein the blood pressure measuring device comprises a sphygmomanometer and a blood pressure cuff.
3. The refrigerator with health monitoring system of claim 1, wherein the blood pressure measuring device measures a systolic pressure and a diastolic pressure.
4. The refrigerator with health monitoring system of claim 3, wherein the blood pressure measuring device comprises a display for displaying the systolic pressure and the diastolic pressure.
5. The refrigerator with health monitoring system of claim 1, wherein the body temperature measuring device comprises an electronic clinical thermometer.
6. The refrigerator with health monitoring system of claim 5, wherein the electronic clinical thermometer comprises an extendable probe and a display.
7. The refrigerator with health monitoring system of claim 1, wherein the body temperature measuring device comprises an infrared thermometer.
8. The refrigerator with health monitoring system of claim 7, wherein the infrared thermometer comprises a laser pointer and a display.
9. The refrigerator with health monitoring system of claim 1, wherein the blood sugar testing device comprises a blood sampler and a display.
10. The refrigerator with health monitoring system of claim 1, further comprising a main display on the control board of the refrigerator.
11. The refrigerator with health monitoring system of claim 10, wherein the main display is adapted to display the test results from the blood pressure measuring device, the body temperature measuring device, and the blood sugar testing device.
12. The refrigerator with health monitoring system of claim 11, wherein the main display is turned on by the operation signal from the blood pressure measuring device, the body temperature measuring device, and the blood sugar testing device.
13. The refrigerator with health monitoring system of claim 1, further comprising a plurality of receptacles adapted for accepting modules for the blood pressure measuring device, the body temperature measuring device, and the blood sugar testing device.
14. The refrigerator with health monitoring system of claim 13, wherein the receptacle comprises a plurality of electrical contacts between the main display and each of the blood pressure measuring device, the body temperature measuring device, and the blood sugar testing device.
15. The refrigerator with health monitoring system of claim 13, wherein the receptacle comprises a locking device and a release switch.
16. The refrigerator with health monitoring system of claim 13, wherein the blood pressure measuring device, the body temperature measuring device, and the blood sugar testing device are modularized and fitted to the corresponding receptacles.
17. The refrigerator with health monitoring system of claim 16, wherein each of the blood pressure measuring device, the body temperature measuring device, and the blood sugar testing device further comprises a corresponding operation switch provided on the control board of the refrigerator.
18. The refrigerator with health monitoring system of claim 1, wherein the body temperature measuring device comprises an infrared thermometer with laser pointer, wherein the infrared thermometer with laser pointer is adapted to measure a body temperature of a person in front of the refrigerator in real-time.
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, comprising:
transmitting, by a plurality of inter-domain bridging devices, a message that describes inter-domain routing capability of the inter-domain bridging devices to a respective domain master of each of a plurality domains to which the inter-domain bridging devices are connected;
exchanging, by the plurality of domain masters, messages that describe the inter-domain routing capability of the plurality of inter-domain bridging devices connected to the respective domain of each domain master; and
determining, by each domain master, one of the domain masters to serve as a global domain master for calculating inter-domain routing paths.
2. The method of claim 1, wherein the messages exchanged comprise:
a type of inter-domain bridge (IDB)inter-medium bridge (IMB) indicative of a single-PHY IMB, a multi-PHY IMB, a switching IDB, or a G.hn routing IDB;
a domain identifier of one or more connected domains;
a MAC address of each of the connected one or more domain masters;
a metric that defines a cost for routing to each domain of an IMB that sends one of the messages;
a list of MAC addresses for an IMB that resides above an application interface rather than in a connected G.hn domain; and
if more than one connected domain, a list of MAC addresses that belong to each domain.
3. The method of claim 1, wherein the global domain master is configured to perform operations comprising:
calculating, based on inter-domain metrics provided by each inter-domain bridging device, a lowest-cost path for routing between each pair of domains;
selecting lowest-cost inter-domain routes; and
communicating the selected lowest-cost inter-domain routes to each domain master.
4. The method of 3, wherein the global domain master is further configured to perform operations comprising:
determining a fully connected inter-domain broadcast routing tree that does not form loops; and
communicating to each domain master broadcast forwarding requirements for each inter-domain bridging device connected to the respective domain of the domain master.
5. The method of claim 1, wherein the global domain master is configured to perform operations comprising:
calculating, based on inter-domain routing metrics provided by each inter-domain bridging device and intra-domain routing metrics provided by each domain master, a lowest-cost path for routing between each pair of nodes located in different domains;
selecting lowest-cost inter-domain routes; and
communicating to each domain master the selected lowest-cost inter-domain routes.
6. The method of 5, wherein the global domain master is further configured to perform operations comprising:
determining a fully connected inter-domain broadcast routing tree that does not form loops originating from each node in the plurality of domains; and
communicating to each domain master broadcast forwarding requirements for each inter-domain bridging device connected to the respective domain of the domain master for broadcast messages that originate from each node of the respective domain.