Patent application number | Description | Published |
20090022078 | SYSTEMS AND METHODS FOR CONTROLLING SLEEP STATES OF NETWORK NODES - The present disclosure generally relates to systems and methods for controlling nodes in a communication network, such as a wireless sensor network. In one exemplary embodiment, a node, referred to herein as a “coordinator node,” controls the operation of various nodes, referred to herein as “sensor nodes,” that are configured to monitor various parameters. The coordinator node from time-to-time broadcasts a beacon to the sensor nodes. The beacon can include various information that is used by the sensor nodes for control. In one exemplary embodiment, the beacon includes node-specific information that informs at least some nodes that they are to transition to a sleep state for a certain period of time. Such nodes, based on the beacon, transition to a sleep state, thereby conserving electrical power. | 01-22-2009 |
20090098898 | SYSTEMS AND METHODS FOR COMMUNICATING PANIC MESSAGES IN WIRELESS COMMUNICATION NETWORKS - Mobile nodes of a wireless network route messages from one node to another. At least one node has a user input device, such as a button, that may be activated to indicate an emergency or other event in which the immediate attention and/or assistance of users of other nodes is needed or desired. Logic senses a panic condition based on the user input device and transmits a panic message to alert users of other nodes. At least one of the nodes provides an alarm that indicates a current location of the node that originally transmitted the panic message thereby assisting a user in finding such node, referred to as the “panicking node.” | 04-16-2009 |
20090293816 | SYSTEM AND METHOD FOR ESTIMATING AND INDICATING TEMPERATURE CHARACTERISTICS OF TEMPERATURE CONTROLLED LIQUIDS - Embodiments of the present disclosure generally pertain to systems and methods for estimating and indicating temperature characteristics of temperature controlled liquids. A system in accordance with one exemplary embodiment of the present disclosure has a tank filled at least partially with a liquid, such as water, and the system has a plurality of temperature sensors mounted on the tank. During operation, a controller compares temperatures sensed by these temperature sensors to a predefined temperature profile for the liquid within the tank in order to estimate the likely temperature characteristics of such liquid. The controller then reports these estimated temperature characteristics via a user interface. As an example, the controller may estimate and report the amount of liquid above a threshold temperature that can be drawn from the tank. Based on the reported temperature characteristics, a user may make decisions about whether or how to use liquid drawn from the tank. | 12-03-2009 |
20100030396 | SYSTEM AND METHOD FOR CONTROLLING TEMPERATURE OF A LIQUID RESIDING WITHIN A TANK - A water heating system including a tank to store water, a temperature sensor positioned to detect a temperature of the water, and a temperature control element configured to alter the temperature of the water. The system also includes a controller configured to control the temperature of the water based on a first temperature threshold during a first time period and monitor the amount of time that the temperature control element is in either the activated state or the deactivated state during the first time period. The control then determines a second temperature threshold for a subsequent time period based on the monitored amount of time. | 02-04-2010 |
20100082134 | MODULAR CONTROL SYSTEM AND METHOD FOR A WATER HEATER - A water heater having a modular control system. The water heater includes a tank, a heating element, a first controller, and a second controller. The heating element is coupled to the tank. The first controller is supported by the tank and includes a housing, a first communication port, a processor, and a first memory storing executable instructions that are executed by the processor. The first controller determines whether the first controller is connected to the second controller through the communication port. The first controller controls an operation of the water heater according to a first algorithm when the first controller is not connected to the second controller. The operation of the water heater is controlled based on an algorithm stored on the second controller when the first controller is connected to the second controller. | 04-01-2010 |
20110231023 | DOOR CLOSER ASSEMBLY - A door closer assembly is provided, including a valve regulating an amount of hydraulic fluid that flows through the valve. The amount of hydraulic fluid flowing through the valve controls a force generated by the door closer assembly on a door. A first sensor measures an angular position of the door, and a second sensor measures an angular position of the valve. The angular position of the valve determines the amount of hydraulic fluid flowing through the valve. A controller controls the adjustment of the valve based on the angular position of the door and the angular position of the valve. | 09-22-2011 |
20110232585 | Radial-shape wireless dog fence system and method - A radial-shaped wireless fence system is provided that contains one or more dogs in a user-defined area without the need for a physical fence or underground wire. The system includes a base unit and at least one collar, and is easy to set up and use. Through improved filtering of consecutive distance measurement values taken between the base unit and the collar, errant measurement values are discounted in terms of their contribution to the current estimate of the dog's distance from the base unit. These filtering techniques, in combination with improved signal strength and antenna diversity in the communication between the base unit and the collar, improve the accuracy and consistency with which the dog's distance from the base unit is tracked so that unwanted corrections are not administered to the dog. | 09-29-2011 |
20140175183 | MODULAR CONTROL SYSTEM AND METHOD FOR WATER HEATERS - A water heating system includes a tank, one or more heating elements mounted on the water heating system, and a first controller mounted on the tank. The first controller is coupled to the one or more heating elements and includes logic to activate and deactivate the heating elements according to a first threshold value. The water heater also includes a second controller that is selectively coupled to the first controller and configured to communicate the first threshold value to the first controller, and perform an additional function related to the operation of the water heater. The first controller is configured to receive the first threshold value from the second controller and control the one or more heating elements based on the received threshold value, and to control the one or more heating elements mounted on the water heating system in a physical absence of the second controller. | 06-26-2014 |
20140330436 | DOOR CLOSER ASSEMBLY - A door closer assembly is provided, including a valve regulating an amount of hydraulic fluid that flows through the valve. The amount of hydraulic fluid flowing through the valve controls a force generated by the door closer assembly on a door. A first sensor measures an angular position of the door, and a second sensor measures an angular position of the valve. The angular position of the valve determines the amount of hydraulic fluid flowing through the valve. A controller controls the adjustment of the valve based on the angular position of the door and the angular position of the valve. | 11-06-2014 |