Patent application number | Description | Published |
20090322510 | SECURING, MONITORING AND TRACKING SHIPPING CONTAINERS - A method of securing a container includes inserting, into a seal device at a container, an electronic bolt; reading, by the seal device, a serial number stored in the electronic bolt; communicating, from the seal device, to a user application, insertion of the bolt; scanning, by the user via a handheld device, a barcode on the seal device representative of an identification of the seal device; communicating, from the handheld device to the user application, the identification of the seal device; inputting, by a user at the container via the handheld device, information associated with the container; communicating, from the handheld device to the user application, the information associated with the container; associating, in a database by the user application, the information associated with the container with the bolt serial number and the identification of the seal device; communicating, by the user application, a confirmation to the seal device. | 12-31-2009 |
20100150122 | MANAGING AND MONITORING EMERGENCY SERVICES SECTOR RESOURCES - A system includes one or more wireless islands, one or more incident management applications, and one or more message management and routing (MMR) systems. Each MMR systems is configured to act as an intermediary for communication between one of the wireless islands and one or more of the incident management applications. One of the wireless islands includes a radio network. The radio network includes a plurality of remote sensor nodes (RSNs), and a gateway controller. An RSN of the plurality of RSNs is worn by ESS personnel, the gateway controller is mounted to an ESS vehicle, and the RSN is configured to wirelessly communicate with the gateway controller. | 06-17-2010 |
20100166113 | RECEIVER STATE ESTIMATION IN A DUTY CYCLED RADIO - A method for receiver state estimation includes communicating, from a first communications device to a second communications device, a first plurality of wake-up frames; receiving, at the first communications device from the second communications device, an indication of a received wake-up frame of the communicated first plurality of wake-up frames; determining, by the first communications device, a time at which the second communications device is in a ready state based on the received indication; subsequently communicating, from the first communications device to the second communications device, a second plurality of wake-up frames. The first plurality is greater than the second plurality, the reduction in number from the first plurality to the second plurality being based on the determined time at which the second communications device is in a ready state. | 07-01-2010 |
20100238940 | ASCERTAINING PRESENCE IN WIRELESS NETWORKS - One of many aspects of the invention relates to an ad hoc network in which inbound messages are communicated from an originating node to a gateway node via a plurality of intermediate nodes. In this respect, a method performed by an intermediate node in communicating the inbound message to the gateway node includes: maintaining a routing table; and using the routing table, selecting a node for use as the next hop by determining whether a maximum number of allowable hops for an inbound message is exceeded by using such node, and comparing a preference of using such node to preferences of using other known nodes by which the maximum number of allowable hops would not be exceeded. Another aspect includes sending a “leave” message when an intermediate node leaves the ad hoc network, whereby the intermediate node is removed from similar routing tables maintained by other intermediate nodes. | 09-23-2010 |
20100265042 | CONJOINED CLASS-BASED NETWORKING - A data communication network includes two logically distinct class-based networks conjoined by at least one common node that has membership in each of the respective classes of the two logically distinct class-based networks. Optionally, three or more class-based networks may be conjoined to form a data communications network. | 10-21-2010 |
20130012122 | CONJOINED CLASS-BASED NETWORKING - A data communication network includes two logically distinct class-based networks conjoined by at least one common node that has membership in each of the respective classes of the two logically distinct class-based networks. Optionally, three or more class-based networks may be conjoined to form a data communications network. | 01-10-2013 |
20130016636 | SECURING, MONITORING AND TRACKING SHIPPING CONTAINERS - A method of securing a container includes inserting, into a seal device at a container, an electronic bolt; reading, by the seal device, a serial number stored in the electronic bolt; communicating, from the seal device, to a user application, insertion of the bolt; scanning, by the user via a handheld device, a barcode on the seal device representative of an identification of the seal device; communicating, from the handheld device to the user application, the identification of the seal device; inputting, by a user at the container via the handheld device, information associated with the container; communicating, from the handheld device to the user application, the information associated with the container; associating, in a database by the user application, the information associated with the container with the bolt serial number and the identification of the seal device; communicating, by the user application, a confirmation to the seal device. | 01-17-2013 |
20130070657 | RECEIVER STATE ESTIMATION IN A DUTY CYCLED RADIO - A method for receiver state estimation includes communicating, from a first communications device to a second communications device, a first plurality of wake-up frames; receiving, at the first communications device from the second communications device, an indication of a received wake-up frame of the communicated first plurality of wake-up frames; determining, by the first communications device, a time at which the second communications device is in a ready state based on the received indication; subsequently communicating, from the first communications device to the second communications device, a second plurality of wake-up frames. The first plurality is greater than the second plurality, the reduction in number from the first plurality to the second plurality being based on the determined time at which the second communications device is in a ready state. | 03-21-2013 |
20130070676 | ASCERTAINING PRESENCE IN WIRELESS NETWORKS - One of many aspects of the invention relates to an ad hoc network in which inbound messages are communicated from an originating node to a gateway node via a plurality of intermediate nodes. In this respect, a method performed by an intermediate node in communicating the inbound message to the gateway node includes: maintaining a routing table; and using the routing table, selecting a node for use as the next hop by determining whether a maximum number of allowable hops for an inbound message is exceeded by using such node, and comparing a preference of using such node to preferences of using other known nodes by which the maximum number of allowable hops would not be exceeded. Another aspect includes sending a “leave” message when an intermediate node leaves the ad hoc network, whereby the intermediate node is removed from similar routing tables maintained by other intermediate nodes. | 03-21-2013 |
20130072144 | MANAGING AND MONITORING EMERGENCY SERVICES SECTOR RESOURCES - A system includes one or more wireless islands, one or more incident management applications, and one or more message management and routing (MMR) systems. Each MMR systems is configured to act as an intermediary for communication between one of the wireless islands and one or more of the incident management applications. One of the wireless islands includes a radio network. The radio network includes a plurality of remote sensor nodes (RSNs), and a gateway controller. An RSN of the plurality of RSNs is worn by ESS personnel, the gateway controller is mounted to an ESS vehicle, and the RSN is configured to wirelessly communicate with the gateway controller. | 03-21-2013 |