Patent application number | Description | Published |
20090217073 | SYSTEM FOR MODULATING SIGNALS OVER POWER LINES TO UNDERSTAND THE POWER DISTRIBUTION TREE - A power distribution system comprises an input power line configured to supply power produced by a power source, one or more power distribution components operatively connected to receive power supplied by the power source, one or more intelligent system resources, and a power management component. Each power distribution component has one or more power outputs for distributing power along a power line connected thereto and is configured to modulate a carrier signal containing identification data along the power line connected to each output. Each system resource is operatively connected to receive power distributed by at least one of the one or more power distribution components. Each system resource is configured to receive and demodulate the carrier signal modulated by each power distribution component from which it receives power, generate a list of each power distribution component from which it receives power, and pass the list to a system bus. The power management component is configured to receive and process each list from the system bus to generate a mapping of the at least power distribution component from which each system resource receives power. | 08-27-2009 |
20120180055 | OPTIMIZING ENERGY USE IN A DATA CENTER BY WORKLOAD SCHEDULING AND MANAGEMENT - Techniques are described for scheduling received tasks in a data center in a manner that accounts for operating costs of the data center. Embodiments of the invention generally include comparing cost-saving methods of scheduling a task to the operating parameters of completing a task—e.g., a maximum amount of time allotted to complete a task. If the task can be scheduled to reduce operating costs (e.g., rescheduled to a time when power is cheaper) and still be performed within the operating parameters, then that cost-saving method is used to create a workload plan to implement the task. In another embodiment, several cost-saving methods are compared to determine the most profitable. | 07-12-2012 |
20120290135 | UNIFIED AND FLEXIBLE CONTROL OF MULTIPLE DATA CENTER COOLING MECHANISMS - Techniques are described for controlling the climate in a data center. Using the input of an administrator, multiple desired attributes of a data center (e.g., temperature, energy consumption, costs, or system performance) may be balanced using a utility function that maximizes the utility of the computing systems in the data center according to the administrator's preferences. Additionally, a cooling model is generated that represents the affect of a control parameter (e.g., the fan speed of a CRAC) on the desire attributes of the data center. The cooling model may then be substituted into the utility function to replace the desired attributes. Using this new utility function, the control parameters may be varied such that the maximum utility is achieved. | 11-15-2012 |
20130104136 | OPTIMIZING ENERGY USE IN A DATA CENTER BY WORKLOAD SCHEDULING AND MANAGEMENT - Techniques are described for scheduling received tasks in a data center in a manner that accounts for operating costs of the data center. Embodiments of the invention generally include comparing cost-saving methods of scheduling a task to the operating parameters of completing a task—e.g., a maximum amount of time allotted to complete a task. If the task can be scheduled to reduce operating costs (e.g., rescheduled to a time when power is cheaper) and still be performed within the operating parameters, then that cost-saving method is used to create a workload plan to implement the task. In another embodiment, several cost-saving methods are compared to determine the most profitable. | 04-25-2013 |
20130151652 | DATA SERVICES USING LOCATION PATTERNS AND INTELLIGENT CACHING - Pre-caching may decrease the response time necessary for a wireless communication network to fulfill a user request. Pre-caching includes predicting what data the user will request next and preemptively fetching that data from a network (e.g., the Internet). Additionally, the wireless communication network may predict the geographic location of the mobile device when it makes the request. Instead of pre-caching the data in the memory of the mobile device, the data may be stored at a wireless access point that has a radiation pattern that covers the predicted geographic location of the mobile device. Once the wireless access point receives the request from the mobile device for the pre-cached data, the pre-cached data may be transmitted wirelessly to the mobile device, thereby avoiding having to forward the request to rest of the communication network. | 06-13-2013 |
20130151654 | DATA SERVICES USING LOCATION PATTERNS AND INTELLIGENT CACHING - Pre-caching may decrease the response time necessary for a wireless communication network to fulfill a user request. Pre-caching includes predicting what data the user will request next and preemptively fetching that data from a network (e.g., the Internet). Additionally, the wireless communication network may predict the geographic location of the mobile device when it makes the request. Instead of pre-caching the data in the memory of the mobile device, the data may be stored at a wireless access point that has a radiation pattern that covers the predicted geographic location of the mobile device. Once the wireless access point receives the request from the mobile device for the pre-cached data, the pre-cached data may be transmitted wirelessly to the mobile device, thereby avoiding having to forward the request to rest of the communication network. | 06-13-2013 |
20130159039 | DATA CENTER INFRASTRUCTURE MANAGEMENT SYSTEM FOR MAINTENANCE - A change management system issues work tickets that list particular procedures for performing an action, for example, in a data center. If these procedures are not followed precisely, then an outage may occur. Advantageously, the change management system may be communicatively coupled to an infrastructure management system for verifying that the procedures were performed properly. For any work ticket that involves support devices (e.g., power supplies or cooling mechanisms) that are monitored by the infrastructure management system, the change management system may send a request to the infrastructure management system to verify that these support devices are in the correct mode or state. If not, the change management system may refuse to close the ticket and instruct a technician to change the support device to the proper condition. This may prevent outages that occur from a technician failing to follow the procedures detailed by the change management system. | 06-20-2013 |
20150071173 | DATA SERVICES USING LOCATION PATTERNS AND INTELLIGENT CACHING - Pre-caching may decrease the response time necessary for a wireless communication network to fulfill a user request. Pre-caching includes predicting what data the user will request next and preemptively fetching that data from a network (e.g., the Internet). Additionally, the wireless communication network may predict the geographic location of the mobile device when it makes the request. Instead of pre-caching the data in the memory of the mobile device, the data may be stored at a wireless access point that has a radiation pattern that covers the predicted geographic location of the mobile device. Once the wireless access point receives the request from the mobile device for the pre-cached data, the pre-cached data may be transmitted wirelessly to the mobile device, thereby avoiding having to forward the request to rest of the communication network. | 03-12-2015 |
Patent application number | Description | Published |
20090071886 | Aquarium Filter Assembly and Filter Element - An aquarium filter assembly includes a housing having a filter cartridge and a water pump and defining a flow path therethrough from upstream to downstream from an inlet to an outlet. A replaceable filter element is mounted in one or more designated orientation positions. | 03-19-2009 |
20090107900 | Aquarium Filter - An aquarium filter assembly is mounted to an aquarium tank and defines a water flow path therethrough from upstream to downstream from an inlet to an outlet. A replaceable filter element is mounted in a filter chamber. | 04-30-2009 |
20090114581 | Aquarium Filter - An aquarium filter assembly is mounted to an aquarium tank and defines a water flow path therethrough from upstream to downstream from an inlet to an outlet. A replaceable filter element is mounted in a filter chamber. | 05-07-2009 |
20110147288 | Integrated Aquarium Filter Assembly Including Filter Media Components and an Upstream Water Pump - Disclosed are filter assemblies for an aquarium tank. The disclosed assemblies include a filter basket assembly in which one or more filter baskets are connected, either directly or indirectly, to a filter pump basket. The filter pump basket typically is located upstream of the one or more filter baskets and pumps water upwards through the filter basket assembly. | 06-23-2011 |
20140230740 | ANIMAL HABITAT - An animal habitat arrangeable in a vertical or a horizontal orientation comprising a rectangular enclosure having four side-walls and two opposing end-walls, wherein the four side-walls are joined to a frame at a first end of the enclosure; and the two opposing end-walls comprise a first end-wall and a second-end wall; wherein the first end-wall is releasably connectable to the frame, positionable within the frame in a plurality of orientations and provides an end-wall door with access to an interior of the rectangular enclosure; wherein at least one of the side-walls provides a side-wall door with access to the interior of the rectangular enclosure and has a hinge position which is changeable along opposite side-walls of the enclosure. | 08-21-2014 |
Patent application number | Description | Published |
20100121335 | Instrument for Use in Minimally Invasive Surgery - The invention is directed to an instrument for use in minimally invasive hip surgery. In particular, the instrument is useful for both alignment and insertion/impaction of an acetabular shell. Furthermore, the instrument is suitable for assuring the shell is impacted with the proper abduction and version in left or right hips. | 05-13-2010 |
20130053856 | PRECISION HIP REPLACEMENT METHOD - A method for accurately positioning the acetabular cup in a minimally invasive total hip arthroplasty (THA), comprising the steps of (a) placing the cup in roughly the correct position in the acetabulum using a acetabular component placement tool, (b) taking a first abduction reading and a first anteversion reading using a gyroscopic positioning unit aligned with the acetabular component placement tool, (c) taking an image of at least a portion of the cup using a radiography unit, (d) using the image to determine the actual orientation of the cup and required position of the cup to properly orient the acetabular component, (e) incrementally altering the position of the cup by using a striking tool, (f) taking new abduction and anteversion readings using the gyroscopic unit to determine the relative movement of the cup caused by the tapping, and (g) repeating any of the steps as necessary. | 02-28-2013 |
20130053857 | INSIDE-OUT GUIDE FOR HIP REPLACEMENT METHOD - A tool and method for locating a proper position for a portal incision for hip arthroplasty, the tool being a tubular body having a first portion defining a first axis, a second portion defining a second axis non-parallel to the first axis, the second portion having a directional tool and a lead coaxially aligned, wherein when the tubular body is placed adjacent to an acetabulum with the directional tool aimed at the acetabulum and perpendicular to a plane of the face of the acetabulum, the lead points to location on the skin that would be the proper location for the portal incision. The lead may have a blunt tip, a cutting instrument, or an opening through which a flexible tool can be inserted to forge a path towards the proper location for the portal incision. | 02-28-2013 |
20130053858 | PRECISE HIP COMPONENT POSITIONING FOR HIP REPLACEMENT SURGERY - A device for accurately positioning the acetabular cup in a minimally invasive total hip arthroplasty (THA), comprising the steps of (a) placing the cup in roughly the correct position in the acetabulum using a acetabular component placement tool, (b) taking a first abduction reading and a first anteversion reading using a gyroscopic positioning unit aligned with the acetabular component placement tool, (c) taking an image of at least a portion of the cup using a radiography unit, (d) using the image to determine the actual orientation of the cup and required position of the cup to properly orient the acetabular component, (e) incrementally altering the position of the cup by using a striking tool, (f) taking new abduction and anteversion readings using the gyroscopic unit to determine the relative movement of the cup caused by the tapping, and (g) repeating any of the steps as necessary. | 02-28-2013 |
20130053859 | TELESCOPIC GUIDE FOR HIP REPLACEMENT METHOD - A tool and method for locating a proper position for a portal incision for hip arthroplasty, the tool having at least one generally straight body defining an axis, the generally straight body having a slot at one end, the slot being angled at an approximately 45 degree angle relative to the axis of the generally straight body, the slot configured to receive a cutting member or guide tool. A second generally straight body may be connected to the first generally straight body to form a right angle. If the lengths of the two generally straight bodies are substantially equivalent, then when the second generally straight body is inserted into the acetabulum, the first generally straight body positions the slot in the proper location such that sliding a guide tool or cutting member through the slot allows a portal incision to be created in the proper location. In some embodiments, the generally straight bodies may have adjustable lengths. | 02-28-2013 |
20130053904 | PRECISE FEMORAL COMPONENT POSITIONING FOR HIP REPLACEMENT SURGERY - A method for accurately positioning the acetabular cup in a minimally invasive total hip arthroplasty (THA), comprising the steps of (a) placing the cup in roughly the correct position in the acetabulum using a acetabular component placement tool, (b) taking a first abduction reading and a first anteversion reading using a gyroscopic positioning unit aligned with the acetabular component placement tool, (c) taking an image of at least a portion of the cup using a radiography unit, (d) using the image to determine the actual orientation of the cup and required position of the cup to properly orient the acetabular component, (e) incrementally altering the position of the cup by using a striking tool, (f) taking new abduction and anteversion readings using the gyroscopic unit to determine the relative movement of the cup caused by the tapping, and (g) repeating any of the steps as necessary. | 02-28-2013 |
20130190770 | Instrument for use in minimally invasive surgery - An instrument for use in minimally invasive hip surgery, the instrument being for use in forming and using a portal incision in a hip arthroplasty procedure to implant an acetabular implant. In particular, the instrument is useful for both alignment and insertion/impaction of an acetabular shell. Furthermore, the instrument is suitable for assuring the shell is impacted with the proper abduction and version in left or right hips. | 07-25-2013 |
20140093154 | SURGICAL METHOD AND WORKFLOW - A surgical method and workflow to improve the efficiency of a surgical procedure by intraoperatively acquiring a digital radiographic image, processing the digital radiographic image, and using information based on the radiographic image to make adjustments during the surgical procedure. A checklist of parameters may be displayed so that the surgeon can confirm all considerations have been made for the surgical procedure. | 04-03-2014 |
20140378828 | HIP ARTHROPLASTY METHOD AND WORKFLOW - A surgical method and workflow to improve the efficiency of a surgical procedure by intraoperatively acquiring a digital radiographic image, processing the digital radiographic image, and using information based on the radiographic image to make adjustments during the surgical procedure. A checklist of parameters may be displayed so that the surgeon can confirm all considerations have been made for the surgical procedure. | 12-25-2014 |