Abstract: A method for location aware networking in a wireless ad-hoc network having a plurality of wireless nodes in a geographic area comprising: dividing the geographic area into a plurality of grids; determining a location of a particular wireless node; determining a corresponding grid where the particular wireless node resides; determining a cluster head for the corresponding grid; connecting corresponding wireless nodes in the corresponding grid to the cluster head, wherein the cluster head of the corresponding grid periodically gather data from the corresponding wireless nodes, aggregate the data and transmits the data to a gateway; and coupling the cluster head of the corresponding grid to cluster heads of each of the plurality of grids forming a pathway to the gateway, the cluster head of the corresponding grid transmitting the data through the pathway or directly to the gateway.
Abstract: A method for forming a collaborative wireless sensor array comprising: connecting a plurality of wireless sensor nodes together, wherein each of the plurality of wireless sensor nodes wirelessly communicate with one another; collecting data by the plurality of wireless sensor nodes; forming metadata on the data collected by each of the plurality of wireless sensor nodes; sharing the data and metadata with the plurality of wireless sensor nodes; and fusing the data and metadata to perform a task.
Abstract: A method for interference avoidance when transmitting a message in a wireless system comprising: dividing a frame into a plurality of time slots, wherein a first plurality of time slots allocated as Time Division Multiple Access (TDMA) time slots and a second plurality of time slots allocated as contention slots; transmitting a message in a designated TDMA time slot by a corresponding wireless node assigned to the designated TDMA time slot if the designated TDMA time slot is idle; and transmitting the message in a contention slot if the designated TDMA time slot is busy.
Abstract: Embodiments disclosed herein include devices and methods pertaining to medical lead connectors. According to various embodiments of the disclosed technology, disclosed is a lead connector that may include a base member; a flexible circuit configured to support electrical connections; and a casing that includes a bottom casing and a detachable cover member to be placed on top of the bottom casing. The bottom casing may include an array of slot openings to provide access to a surface of the flexible circuit and the lead connector may also include an array of electrode contacts positioned on top of the slot openings. Furthermore, a lead may be configured to be inserted through the lead connector via an opening on both ends of the cover member, wherein the lead pushes the ball contacts downward allowing the ball contacts to make electrical contact with the flexible circuit through the slot opening of the bottom casing.
Type:
Grant
Filed:
June 30, 2017
Date of Patent:
May 15, 2018
Assignee:
BENCHMARK ELECTRONICS, INC.
Inventors:
Robert Raymond White, Daniel William Johns, Daniel Patrick Higgins