Abstract: A closed-toe swim fin device. The swim fin includes a rear cavity designed to receive the front portion of a user's foot, e.g., the portion in front of the ankle, and to hold the user's foot therein via vacuum seal, friction, and pressure fit. The swim fin is otherwise sealed and fluid-tight such that the only way into and out of the rear cavity is through the rear cavity's opening that receives the user's foot. In this way, the swim fin eliminates the need for other types of foot attachment mechanisms (e.g., shoes, heel straps) thereby reducing the resulting water drag of the fin when in use.

Abstract: Systems and methods for modifying a municipal fixture to affix endpoint devices, provide a power to such devices, and managing network traffic between and among such devices, including managing upstream transmission and efficiently propagating desired state changes through the network. The systems and methods described herein generally use a plurality of mesh radio transmitters which are configured for peer-to-peer data exchange to propagate system state changes to one or more uplink gateways. The gateways may then aggregate this data and transmit it over a wide area network to a server or server farm for processing, analysis, and other use. That data may also be viewed in real time by user devices, and instructions and commands may also be relayed to the individual IoT devices in the mesh network via such user devices.

Abstract: Systems and methods for modifying a municipal fixture to affix endpoint devices, provide a power to such devices, and managing network traffic between and among such devices, including managing upstream transmission and efficiently propagating desired state changes through the network. The systems and methods described herein generally use a plurality of mesh radio transmitters which are configured for peer-to-peer data exchange to propagate system state changes to one or more uplink gateways. The gateways may then aggregate this data and transmit it over a wide area network to a server or server farm for processing, analysis, and other use. That data may also be viewed in real time by user devices, and instructions and commands may also be relayed to the individual IoT devices in the mesh network via such user devices.

Abstract: Systems and methods for modifying a municipal fixture to affix endpoint devices, provide a power to such devices, and managing network traffic between and among such devices, including managing upstream transmission and efficiently propagating desired state changes through the network. The systems and methods described herein generally use a plurality of mesh radio transmitters which are configured for peer-to-peer data exchange to propagate system state changes to one or more uplink gateways. The gateways may then aggregate this data and transmit it over a wide area network to a server or server farm for processing, analysis, and other use. That data may also be viewed in real time by user devices, and instructions and commands may also be relayed to the individual IoT devices in the mesh network via such user devices.

Abstract: A luminaire control device for use with a municipal light pole. The device is plugged into a standard dimming receptacle and includes a universal power supply for converting AC power received in any of the common municipal distribution voltages to a uniform DC output usable by small electronic components of an accompanying control system. The universal power supply and control system are configured to fit within the form factor required by applicable standards. The control system includes program logic to control the luminaire by sending control signals via the dimming receptacle. These signals may be sent using one, two, or more control channels as defined by the standard, and may control a single luminaire or multiple luminaires via the different channels. The device may further include a wireless transceiver to facilitate remote access and control of the light, allowing a municipal light pole to be retrofitted as an IoT device.

Abstract: A multi-panel municipal luminaire comprising a plurality of independently operable sources of illumination, such as but not limited panels of light-emitting diodes (LEDs), and systems and methods for independently operating subsets of the panels within a single luminaire to provide multi-zone illumination. The control signals may be transmitted via a dimming receptacle from a luminaire control device, which may be programmed to operate each subset of panels, or which may receive instructions from a remote command center or operate each set of panels in real-time in response to local events detected by a sensor, such but not limited to as an approaching or departing vehicle or pedestrian, or a weather event.

Abstract: Systems and methods for providing “localization” of moving objects (e.g., people, vehicles, equipment) by using beacons installed on municipal fixtures, such as light and utility poles. The beacons transmit, in the ordinary course of network communication, an identifier. Because the poles don't move, the fixed geographic locations of the poles can be associated in a database with a unique identifier broadcast by the beacon installed on the pole. When a moving device having a wireless transceiver approaches the pole, it will receive transmissions from the beacon including the identifier, and can then look up the identifier in the database to get the geographic coordinates. This can be done even without the moving device's wireless transceiver authenticating or connected to the beacons' network. This location can then be used for a wide variety of applications and purposes.

Abstract: A luminaire control device for use with a municipal light pole. The device is plugged into a standard dimming receptacle and includes a universal power supply for converting AC power received in any of the common municipal distribution voltages to a uniform DC output usable by small electronic components of an accompanying control system. The universal power supply and control system are configured to fit within the form factor required by applicable standards. The control system includes program logic to control the luminaire by sending control signals via the dimming receptacle. These signals may be sent using one, two, or more control channels as defined by the standard, and may control a single luminaire or multiple luminaires via the different channels. The device may further include a wireless transceiver to facilitate remote access and control of the light, allowing a municipal light pole to be retrofitted as an IoT device.

Abstract: Systems and methods for modifying a municipal fixture to affix endpoint devices, provide a power to such devices, and managing network traffic between and among such devices, including managing upstream transmission and efficiently propagating desired state changes through the network. The systems and methods described herein generally use a plurality of mesh radio transmitters which are configured for peer-to-peer data exchange to propagate system state changes to one or more uplink gateways. The gateways may then aggregate this data and transmit it over a wide area network to a server or server farm for processing, analysis, and other use. That data may also be viewed in real time by user devices, and instructions and commands may also be relayed to the individual IoT devices in the mesh network via such user devices.

Abstract: A cobra arm enclosure device has a hull, a lid, and features for a light pole and a light fixture to attach hereto. The device has a generally rectangular prismatic form that sheds precipitation and ice. It has a top surface upon the lid, a bottom surface upon the hull, a left side, a right side, a front, and a back. The enclosure has an extension that fits into a light fixture. The back of the enclosure has a receiver that fits upon a light pole arm. The enclosure has a width generally greater than that of the cobra arm. Within the invention, it has a storage capacity for electrical components. The invention is an inline enclosure for direct transmission of electrical power and signaling. The invention serves in a system where a central control operates street lighting across a city.

Abstract: A cobra arm enclosure device has a hull, a lid, and features for a light pole and a light fixture to attach hereto. The device has a generally rectangular prismatic form that sheds precipitation and ice. It has a top surface upon the lid, a bottom surface upon the hull, a left side, a right side, a front, and a back. The enclosure has an extension that fits into a light fixture. The back of the enclosure has a receiver that fits upon a light pole arm. The enclosure has a width generally greater than that of the cobra arm. Within the invention, it has a storage capacity for electrical components. The invention is an inline enclosure for direct transmission of electrical power and signaling. The invention serves in a system where a central control operates street lighting across a city.

Abstract: A cobra arm enclosure device has a hull, a lid, and features for a light pole and a light fixture to attach hereto. The device has a generally rectangular prismatic form that sheds precipitation and ice. It has a top surface upon the lid, a bottom surface upon the hull, a left side, a right side, a front, and a back. The enclosure has an extension that fits into a light fixture. The back of the enclosure has a receiver that fits upon a light pole arm. The enclosure has a width generally greater than that of the cobra arm. Within the invention, it has a storage capacity for electrical components. The invention is an inline enclosure for direct transmission of electrical power and signaling. The invention serves in a system where a central control operates street lighting across a city.

Abstract: A cobra arm enclosure device has a hull, a lid, and features for a light pole and a light fixture to attach thereto. The device has a generally rectangular prismatic form that sheds precipitation and ice. It has a top surface upon the lid, a bottom surface upon the hull, a left side, a right side, a front, and a back. The enclosure has an extension that fits into a light fixture. The back of the enclosure has a receiver that fits upon a light pole arm. The enclosure has a width generally greater than that of the cobra arm. Within the invention, it has a storage capacity for electrical components. The invention is an inline enclosure for direct transmission of electrical power and signaling. The invention serves in a system where a central control operates street lighting across a city.

Abstract: A cobra arm enclosure device has a hull, a lid, and features for a light pole and a light fixture to attach thereto. The device has a generally rectangular prismatic form that sheds precipitation and ice. It has a top surface upon the lid, a bottom surface upon the hull, a left side, a right side, a front, and a back. The enclosure has an extension that fits into a light fixture. The back of the enclosure has a receiver that fits upon a light pole arm. The enclosure has a width generally greater than that of the cobra arm. Within the invention, it has a storage capacity for electrical components. The invention is an inline enclosure for direct transmission of electrical power and signaling. The invention serves in a system where a central control operates street lighting across a city.