ALLIED TELESIS HOLDINGS KABUSHIKI KAISHA - , US Daniel Stellick - Geneva IL, US
Assignee:
ALLIED TELESIS HOLDINGS KABUSHIKI KAISHA - Tokyo
International Classification:
H02J 4/00
US Classification:
307 1
Abstract:
A method includes receiving a signal to maintain uninterrupted power to a device over a power over Ethernet line. The power over Ethernet line is configured to carry data and power. Power delivery is maintained for the device regardless of a power disruptive event associated with a power source device. Carrying the power to the device over the power over Ethernet line is interrupted in absence of the receiving the signal. According to one embodiment, the signal is generated in response to a user command or it may be generated from the device automatically. The signal may classify the device as a critical device. The power disruptive event may include initialization of a data path, alteration to a data path associated with the power over Ethernet line, a software update associated with the power source device, reset of power source device, etc.
Method And System For Representing Sensor Associated Data
- Tokyo, JP - Bothell WA, US Scott Gill - Taguig, PH Daniel Stellick - Geneva IL, US
International Classification:
G08B 21/12 G08B 21/18 G06F 3/0484
Abstract:
Systems, apparatuses, and methods described herein are configured for monitoring and managing a plurality of sensors. The plurality of sensors may be fixed, mobile, or a combination thereof. In some embodiments, the monitoring and management of the sensors is facilitated via a graphical user interface.
- Tokyo, JP - Bothell WA, US Daniel Stellick - Geneva IL, US
International Classification:
G06F 1/26 H04L 12/10 G06F 1/28
Abstract:
Some embodiments provide a device that includes a connection manager module and a power manager module. The connection manager module may be configured to establish a connection with a power sourcing power over Ethernet (PoE) device. The connection manager module may be further configured to draw power from the power sourcing PoE device over the connection. The power manager module may be configured to modify the power drawn from the power sourcing PoE device. The power manager module may be further configured to provide the modified power to a non-PoE device.
Data Rerouting And Caching Through Redundant Network
- Tokyo, JP - Bothell WA, US Daniel Stellick - Geneva IL, US
International Classification:
H04L 12/24 H04L 12/703
Abstract:
A plurality of devices forms a communication network. The plurality of devices is networked via their respective primary link. The plurality of devices is configured to revert to a redundant network upon a primary link associated with a first device in the plurality of devices failing. A second device in the plurality of devices is configured to transmit data to the first device through the primary link associated with the first device when the primary link associated with the first device is operational. The second device is further configured to reroute the data through a secondary link associated with the first device in response to the primary link associated with the first device failing. The redundant network includes the secondary link associated with the first device.
- Tokyo, JP - Bothell WA, US Daniel Stellick - Geneva IL, US
International Classification:
H04L 12/703 H04L 12/24
Abstract:
Redundant links in a network of devices are established. A plurality of devices in the network is configured for communicating data through primary links coupling devices of said plurality of devices. A designated device is configured to receive device data from the plurality of devices. The designated device is further configured to identify a set of devices from the plurality of devices that is operable to establish redundant links in the network. The designated device is further configured to determine configuration data for each device in the set of devices. The designated device is further configured to send the configuration data to the set of devices. The configuration data is operable to establish redundant links for devices in the set of devices in case of a primary link failure.
Priority Data Transmission Through Redundant Network
- Tokyo, JP - Bothell WA, US Daniel Stellick - Geneva IL, US
International Classification:
H04L 12/703 H04L 12/707
Abstract:
A plurality of devices forms a communication network. The plurality of devices is networked via their respective primary link. The plurality of devices is configured to revert to a redundant network upon a primary link associated with a first device in the plurality of devices failing. A second device in the plurality of devices is configured to transmit a plurality of different types of data having different priorities to the first device through the primary link associated with the first device when the primary link associated with the first device is operational. The second device is further configured to reroute a subset of the plurality of different types of data based on the priorities of the plurality of different types of data through the redundant network in response to the primary link associated with the first device failing.
Graphical User Interface Of A Sensor Based Detection System
- TOKYO, JP - BOTHELL WA, US Scott Gill - Makati, PH Daniel Stellick - Geneva IL, US
International Classification:
G06F 3/0484 G06F 17/30
Abstract:
Provided herein are systems and methods for receiving information associated with a plurality of sensors configured to detect a hazardous condition, wherein the information includes metadata and sensor reading data; and rendering the information on a graphical user interface on a display device, wherein the rendering is configured to identify sensors of the plurality of sensors that satisfy the hazardous condition.
Graphical User Interface For Path Determination Of A Sensor Based Detection System
- Tokyo, JP - Bothell WA, US Scott Gill - Makati, PH Daniel Stellick - Geneva IL, US
International Classification:
G06T 17/05 G11B 27/00 G06F 3/0484 G08B 25/00
Abstract:
Provided herein are systems and methods for receiving information associated with a plurality of sensors configured to detect a hazardous condition, wherein the information includes metadata and sensor reading data; determining a path of the hazardous condition about the plurality of sensors from the information; and rendering the path of the hazardous condition on a graphical user interface on a display device.
Resumes
Architecture, Design, And Interop At Allied Telesis