Forming ad hoc RSI networks among transceivers sharing common designation
First Claim
1. A method of forming remote sensor interface (RSI) networks among a population of data communication devices, each data communication device including a wireless transceiver and machine-executable memory for storing therein sensor-acquired information, the method comprising the steps of:
- (a) assigning a first common designation to a first plurality of transceivers of the data communication devices and assigning a second common designation to a second plurality of transceivers of the data communication devices, the population of transceivers of the data communication devices including the first plurality of transceivers and the second plurality of transceivers;
(b) for the first plurality of transceivers, forming a first ad hoc hierarchical network to facilitate communications between the first plurality of transceivers, including forming a hierarchical communication cluster by,(i) broadcasting, from a first transceiver of the first plurality of transceivers, a primary availability signal including an identifier representative of the first common designation assigned to the first plurality of transceivers,(ii) in response to receipt of the primary availability signal of said step (b)(i), transmitting, from one or more responding secondary transceivers of the first plurality of transceivers that are within range of the first transceiver of said step (b)(i), a registration signal including a secondary transceiver identifier, and(iii) storing at the first transceiver of said step (b)(i), up to a predetermined number, each secondary transceiver identifier of said step (b)(ii) that is received,(iv) wherein each secondary transceiver, for which the secondary transceiver identifier thereof is stored in said step (b)(iii), communicates directly with the first transceiver of said step (b)(i) thereby forming a communications cluster of the first ad hoc hierarchical network; and
(c) for the second plurality of transceivers, forming a second ad hoc hierarchical network to facilitate communications between the second plurality of transceivers, including forming a hierarchical communication cluster by,(i) broadcasting, from a first transceiver of the second plurality of transceivers, a primary availability signal including an identifier representative of the second common designation assigned to the second plurality of transceivers,(ii) in response to receipt of the primary availability signal of said step (c)(i), transmitting, from one or more responding secondary transceivers of the second plurality of transceivers that are within range of the first transceiver of said step (c)(i), a registration signal including a secondary transceiver identifier, and(iii) storing at the first transceiver of said step (c)(i), up to a predetermined number, each secondary transceiver identifier of said step (c)(ii) that is received,(iv) wherein each secondary transceiver, for which the secondary transceiver identifier thereof is stored in said step (c)(iii), communicates directly with the first transceiver of said step (c)(i) thereby forming a communications cluster of the second ad hoc hierarchical network.
5 Assignments
0 Petitions
Accused Products
Abstract
A method of forming ad hoc RSI hierarchical communication networks among pluralities of wireless transceivers includes assigning to each of the transceivers one or more common designations. A network organization routine of the transceivers operates to establish hierarchical networks based on the transceivers'"'"' common designations, resulting in a logical network organization that provides efficiencies for acquiring information from particular transceivers that share a common designation. Each transceiver'"'"'s common designation is used by a digital processor of the transceiver to selectively receive data packets that are intended for receipt by transceivers sharing the particular common designation. Such a “common designation” network reduces power consumption and signal interference thereby increasing battery life. Each transceiver may include a sensor interface a query handling routine in communication with a memory of the transceiver for serving as a dynamic distributed hierarchical database system of information such as, for example, sensor-derived information and time-sensitive information.
-
Citations
18 Claims
-
1. A method of forming remote sensor interface (RSI) networks among a population of data communication devices, each data communication device including a wireless transceiver and machine-executable memory for storing therein sensor-acquired information, the method comprising the steps of:
-
(a) assigning a first common designation to a first plurality of transceivers of the data communication devices and assigning a second common designation to a second plurality of transceivers of the data communication devices, the population of transceivers of the data communication devices including the first plurality of transceivers and the second plurality of transceivers; (b) for the first plurality of transceivers, forming a first ad hoc hierarchical network to facilitate communications between the first plurality of transceivers, including forming a hierarchical communication cluster by, (i) broadcasting, from a first transceiver of the first plurality of transceivers, a primary availability signal including an identifier representative of the first common designation assigned to the first plurality of transceivers, (ii) in response to receipt of the primary availability signal of said step (b)(i), transmitting, from one or more responding secondary transceivers of the first plurality of transceivers that are within range of the first transceiver of said step (b)(i), a registration signal including a secondary transceiver identifier, and (iii) storing at the first transceiver of said step (b)(i), up to a predetermined number, each secondary transceiver identifier of said step (b)(ii) that is received, (iv) wherein each secondary transceiver, for which the secondary transceiver identifier thereof is stored in said step (b)(iii), communicates directly with the first transceiver of said step (b)(i) thereby forming a communications cluster of the first ad hoc hierarchical network; and (c) for the second plurality of transceivers, forming a second ad hoc hierarchical network to facilitate communications between the second plurality of transceivers, including forming a hierarchical communication cluster by, (i) broadcasting, from a first transceiver of the second plurality of transceivers, a primary availability signal including an identifier representative of the second common designation assigned to the second plurality of transceivers, (ii) in response to receipt of the primary availability signal of said step (c)(i), transmitting, from one or more responding secondary transceivers of the second plurality of transceivers that are within range of the first transceiver of said step (c)(i), a registration signal including a secondary transceiver identifier, and (iii) storing at the first transceiver of said step (c)(i), up to a predetermined number, each secondary transceiver identifier of said step (c)(ii) that is received, (iv) wherein each secondary transceiver, for which the secondary transceiver identifier thereof is stored in said step (c)(iii), communicates directly with the first transceiver of said step (c)(i) thereby forming a communications cluster of the second ad hoc hierarchical network. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
-
Specification