Abstract: In some configurations, the method of operating a system with dynamic wireless network topology with reduced spectrum flooding involve scanning with a first device in mesh network for beacon packets from other devices in the mesh network during a random back off period. In response to the first device not receiving a beacon packet from the other devices during the random back off period, the first device initiates an election protocol by sending an election protocol packet with its unique election protocol identifier to the other devices. In response to receiving a beacon packet from a second device, the first device stores the unique node identifier, assigns the second device as a leader node device, retransmits the unique node identifier of the second device and leader node information in a protocol packet. A command packet is communicated through the mesh network by way of at least one leader node device.

Abstract: In some configurations, the method of operating a system with dynamic wireless network topology with reduced spectrum flooding involve scanning with a first device in mesh network for beacon packets from other devices in the mesh network during a random back off period. In response to the first device not receiving a beacon packet from the other devices during the random back off period, the first device initiates an election protocol by sending an election protocol packet with its unique election protocol identifier to the other devices. In response to receiving a beacon packet from a second device, the first device stores the unique node identifier, assigns the second device as a leader node device, retransmits the unique node identifier of the second device and leader node information in a protocol packet. A command packet is communicated through the mesh network by way of at least one leader node device.

Abstract: A system and method receive a selection input and an action input from different sets of sensors. The inputs are associated with a device, an action is selected for the device, and a control signal is sent to the device to operate the device. The sensors may receive signals including voice commands, gestures, and location information. The system and method may also be applied to select multiple devices and perform actions on each of the devices.

Abstract: Systems and methods for the periodic creation of wireless mesh networks are disclosed. In order to save power the nodes in the mesh network may periodically switch from being in a broadcast mode and a skip cycle. When in the broadcast mode the node may cycle broadcasting new IDs in order to prevent spoofing.

Abstract: In some configurations, the method of operating a system with dynamic wireless network topology with reduced spectrum flooding involve scanning with a first device in mesh network for beacon packets from other devices in the mesh network during a random back off period. In response to the first device not receiving a beacon packet from the other devices during the random back off period, the first device initiates an election protocol by sending an election protocol packet with its unique election protocol identifier to the other devices. In response to receiving a beacon packet from a second device, the first device stores the unique node identifier, assigns the second device as a leader node device, retransmits the unique node identifier of the second device and leader node information in a protocol packet. A command packet is communicated through the mesh network by way of at least one leader node device.

Abstract: In some configurations, the method of operating a system with dynamic wireless network topology with reduced spectrum flooding involve scanning with a first device in mesh network for beacon packets from other devices in the mesh network during a random back off period. In response to the first device not receiving a beacon packet from the other devices during the random back off period, the first device initiates an election protocol by sending an election protocol packet with its unique election protocol identifier to the other devices. In response to receiving a beacon packet from a second device, the first device stores the unique node identifier, assigns the second device as a leader node device, retransmits the unique node identifier of the second device and leader node information in a protocol packet. A command packet is communicated through the mesh network by way of at least one leader node device.

Abstract: A user interface for controlling multiple devices connected in a mesh network. The user interface may dynamically respond to the devices connected in the mesh network. The user interface may respond to devices based on their proximity or location. The user interface may allow for grouping of device controls.

Abstract: This disclosure provides a system of intelligent lights together with control devices and sensors communicating over a wireless network, with methods to allow the lights to take actions based on logical combinations of events generated by other devices. The lights can function autonomously as they have built-in functions of logic processing, storage and wireless communications which allow them to receive events and take actions according to the stored logic configuration data. Complete freedom in the grouping of lights as well as association of control devices and sensors to each individual lights is enabled by this system architecture. Seamless communication coverage is enabled by a wireless protocol that allows the light to form a mesh network.

Abstract: A system and apparatus for assessing whether a personnel has complied with sanitation protocols. The system may incorporate wearable tags on each personnel which can communicate with a mesh network to confirm presence of the personnel. In an embodiment, a soap dispenser may be part of the mesh network such that, when the dispenser is activated, a personnel's presence is detected and recorded.

Abstract: A system integrates a wireless controller into a linear, alternating current-only driver. The system utilizes a light emitting diode driver to maintain a constant current to a light emitting diode when a current controller is operated by a pulse width modulated signal. The pulse width modulated signal to one or more light emitting diode circuits may be modified to reduce flicker, color mix, and temperature tune.

Abstract: A method for storing large amounts of data on a wireless device, said method comprising the steps of placing a wireless device on a wireless transmission unit; initializing the wireless device for transmission of data; authenticating the wireless device with an associated account or profile; verifying the storage capacity of the wireless device; determining what wireless standard is implemented by the device; and transmitting data to the wireless device; whereby the transmitted information may be later viewed and or accessed locally from the wireless device.

Abstract: A pairing scheme may add devices to a mesh network automatically. Assuming that at least one device is already part of the mesh network, this scheme may allow devices that have not been paired yet to be automatically added to the mesh, eliminating manual pairing processes. When a new device is powered on, it may broadcast a connectable advertisement packet. The payload of this packet may be secure and not understood by the recipient device. Rather, only a server may have a copy of the device key, and can thus decrypt the advertising packet. The server sends a packet back with a network key and information, and the device then becomes part of the network.

Abstract: An activity monitoring system comprising a plurality of wireless units wherein a first wireless unit comprises a wireless transceiver to broadcast at least one timing signal; a second wireless unit comprises: a wireless transceiver to receive at least one signal; a monitoring device that generates monitoring data; a memory to store the monitoring data; a processor to synchronize a time with the corresponding monitoring data; and wherein the second wireless unit: processes the received timing signal from the first wireless unit; synchronizes the monitoring data with the timing signal resulting in a time-synchronized data stream.

Abstract: Communication may be enabled between mobile devices (i.e., controllers) and Internet of Things (IoT) devices by sending connectionless commands from a controller to an IoT device, or sending connectionless commands from a controller to more than one IoT devices, at the same time. One or more commands may be sent from a controller to one or more nodes that form a network, with the nodes relaying messages to each other via connectionless data packets. This may allow for connectionless command relay from the controller to any node within the network. By sending commands through connectionless data packets, one or more controllers may control one or more nodes at the same time. Furthermore, a single controller may directly send one or more commands to a group of nodes at the same time.

Abstract: This disclosure provides a system of intelligent lights together with control devices and sensors communicating over a wireless network, with methods to allow the lights to take actions based on logical combinations of events generated by other devices. The lights can function autonomously as they have built-in functions of logic processing, storage and wireless communications which allow them to receive events and take actions according to the stored logic configuration data. Complete freedom in the grouping of lights as well as association of control devices and sensors to each individual lights is enabled by this system architecture. Seamless communication coverage is enabled by a wireless protocol that allows the light to form a mesh network.

Abstract: A tag signal from a tracking tag is received at a mesh node. Tag data is forwarded from a mesh node to a gateway, and from the gateway to an application layer in a server. Tag information is calculated by the application layer in the server. The tag information is transmitted back to the gateway, and from the gateway to the node.

Abstract: The present invention proposes a system for facilitating transmission of software files from the originating node to at least one target node by short range wireless communication link. The system comprises plurality of nodes, a bridge, an originating node and a target node wherein each node is enabled to trans-receive the data using short range communication link.

Abstract: An activity monitoring system comprising a plurality of wireless units wherein a first wireless unit comprises a wireless transceiver to broadcast at least one timing signal; a second wireless unit comprises: a wireless transceiver to receive at least one signal; a monitoring device that generates monitoring data; a memory to store the monitoring data; a processor to synchronize a time with the corresponding monitoring data; and wherein the second wireless unit: processes the received timing signal from the first wireless unit; synchronizes the monitoring data with the timing signal resulting in a time-synchronized data stream.

Abstract: An apparatus for tracking patients utilizes a wristband with integrated radio frequency circuits (RFIC). The wristband may further incorporate an antenna on a flex PCB. The wristband may also be disposable and comprising means for replacing the RFIC.

Abstract: A system for estimating the location of a node in a mesh network and predicting future location of the same. Historical RSSI of nodes in a mesh network may be used to determine relative location amongst other nodes. The system may employ statistical approaches to predict future node locations.