Patent application number | Description | Published |
20100192290 | NECK PROTECTION COLLAR - A neck protection collar for protecting the neck of a user has a collar portion that substantially wraps around the neck of a user. A neck protection portion extends up a rearward portion of the collar to protect the neck and part of the cranium. In one embodiment, a chamber is disposed along a portion of the neck protection collar and is filled with an energy absorbing fluid that distributes the force applied during an impact so that injuries are reduced. In another embodiment, a plurality of chambers are filled with the energy absorbing fluid are used to provide the energy absorbing function. The fluid is an energy absorbing gel or liquid. In one embodiment, the chambers are filled with a gas such as air. A fastener is disposed along an upper portion of the neck protection portion to attach to a helmet. | 08-05-2010 |
20130055492 | NECK PROTECTION COLLAR - A neck protection collar for protecting the neck of a user has a collar portion that substantially wraps, supports and surrounds the neck of a user. A neck protection portion extends up a rearward portion of the collar to protect the neck and part of the cranium and is substantially covered with a hook and loop fastener portion. A complimentary hook and loop portion is disposed on the inside portion of a helmet to allow the neck protection collar to be removably attached therein. The hook and loop portion substantially covers most of the neck protection portion to provide enhanced structural stability to the neck and spine of the user. This protects the user from impact, shear and compression forces that cause serious damage. The neck protection collar is made from energy absorbing materials such as high density foam or memory foam. | 03-07-2013 |
20140059737 | INDICATOR GLOVE WITH CLEANING PORTION - A indicator glove with cleaning portion has a glove with a thumb portion having a cleaning portion disposed thereon. The cleaning portion is made of raised nubs that allow the user to clean by swiping across the desired area. An index finger portion is provided with a plurality if visual and/or tactile indicators which allow the user to see and/or feel the markings. When a contaminant such as blood obscures the visual indicators, the user swipes across the contaminant to clean it. The index finger portion may also have a cleaning portion disposed on it to further aid in cleaning. For surgical uses, the gloves are made of latex, nitrile or other suitable material. Other uses may require other materials such as plastic, rubber, leather or other suitable material. | 03-06-2014 |
20150135401 | GLOVE WITH CLEANING SURFACES - A pair of gloves with cleaning surfaces have a thumb cleaning portion located on the thumb tip, a finger cleaning portion on a fingertip portion and a ventral cleaning portion located on the backside of the gloves. The cleaning portions are integrally formed in the same material as the rest of the gloves and are completely sealed to provide sterility. The gloves fit on the left and right hand of a user and have the same cleaning surfaces on each. Indicator portions are integrally formed within the gloves and allow the user to estimate the length of various things without using a separate measuring device. During use, the indicator portions may become contaminated and the cleaning portions are used to clean away the contaminates to restore their usefulness. | 05-21-2015 |
20160030523 | NOSE BLEED TREATMENT SYSTEM - A nose bleed treatment system for use in treating a patient having a nose bleed uses a nose clip that resiliently clamps the patient's nostrils to provide pressure to help stop the bleeding. A medically effective agent is sprayed in the patient's nostril using a spray bottle that has an elongated tip to apply the agent close to the source of the bleed. The medically effective agent contains at least one of a clot enhancing agent and a vasoconstricting agent. The agent may contain vitamin K as well as a vasoconstricting agent epinephrine with pytonadione (vitamin K1), menaquinone (vitamin K2), menadion (vitamin K3) fibrogen or other suitable medications. The medically effective agents are preferably herbally or mammalian sourced. | 02-04-2016 |
20160030720 | NOSE BLEED TREATMENT SYSTEM - A nose bleed treatment system for use in treating a patient having a nose bleed uses a nose clip that has a swab adjustment holder disposed on it to moveably hold a bulky or oversized swab within it. The swab can be moved to press against a bleed site in a patient having a bloody nose. A medically effective agent is applied to the bleed site either by applying it to the swap or by using a specially designed spray bottle. In the embodiment using the spray bottle, the bottle has an elongated tip that allows the user to position the tip of the spray bottle proximal to the bleed site. The medically effective agent contains at least one of a clot enhancing agent and a vasoconstricting agent. The agent may contain vitamin K as well as a vasoconstricting agent epinephrine. | 02-04-2016 |
Patent application number | Description | Published |
20120011509 | Migrating Session State of a Machine Without Using Memory Images - Embodiments of a system and method for migrating session state from a first machine to a second machine without using memory images are disclosed. State information for components of a first computer is determined and stored in a structured human and machine readable file, and does not include a memory image, a disk image, register status, or register contents for the first computer. A second computer is set to a state corresponding to the state of the first computer based on the stored state information, including parsing one or more sections of the structured file to determine actions for restoring state of one or more of the corresponding components, and for each component of the one or more components, performing the actions, including instantiating or invoking the component on the second computer, and performing multiple steps to configure the component in accordance with the state information. | 01-12-2012 |
20120315852 | Zero Client Device With Integrated Bluetooth Capability - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317175 | Zero Client Device With Integrated Serial Bandwidth Augmentation and Support for Out-Of-Band Serial Communications - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317176 | Zero Client Device With Multiple Serial Display Adaptors, Remoting Hardware, and I/O Devices - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317177 | Zero Client Device With Integrated Wireless Capability - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317178 | Zero Client Device With Integrated Virtual Private Network Capability - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317179 | Zero Client Device With Assignment of Unique IP Address Based on MAC Address - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317180 | Zero Client Device With Multi-Boot Capability Supporting Multiple Zero Client Protocols - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317181 | Zero Client Device with Integrated Secure KVM Switching Capability - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317182 | Zero Client Device With Integrated Network Authentication Capability - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317183 | Zero Client Device With Integrated Serial or Parallel Ports - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317184 | Zero Client Device With Integrated Global Position System Capability - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317260 | Network Controlled Serial and Audio Switch - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20130117359 | Capturing and Restoring Session State of a Machine Without Using Memory Images - System and method for capturing and/or restoring session state of a machine without using image files. Session state information for a first computer system may be captured in a structured state capture file (SSCF) using metadata to represent the session state and steps or actions which produced the session state, and does not include a memory image or memory dump of the first computer system. The SSCF may be stored, and subsequently provided for restoration of the session state on the first computer system or a different computer system. A server computer system may store the SSCF (with other SSCFs) and may provide the SSCF to the first computer system or a different computer system over a network for session state restoration, e.g., in response to a request over the network. The first computer system may implement a virtual machine (VM). The session state may be that of the VM. | 05-09-2013 |
20150089022 | Computer System Image Clustering Architecture and Use - System and method for distributed computing. Each of multiple server computer systems may include one or more microservers, a network interface, and a network switch, coupled to the one or more microservers and the network interface, the network switch configured to switchably connect any of the microservers to a network via the network interface. Each microserver may be configurable to implement a respective server based on a computer image file, including a pre-execution environment (PXE) boot image. A management server computer may manage the server computer systems, including: providing or designating provision of computer image files to the server computer systems. Each server computer system may receive a computer image file from the management server computer or a designated computer image file store, implement a PXE boot image on a microserver accordingly, connect to one or more client computers over the network, and provide computer services to the client computers. | 03-26-2015 |
20150199501 | System and Method for Creating a Core Cognitive Fingerprint - A system and method for creating a core cognitive fingerprint are provided. A core cognitive fingerprint can be used to capture and summarize the evolution of a system state and potentially respond with a predetermined action if the fingerprint falls within a defined threshold. The method includes: identifying a set of time frames, each time frame corresponding to a respective data source, within which data is extracted; providing a plurality of pattern recognizers each having an assigned heuristic specific to a type of content; processing the extracted data through the plurality of pattern recognizers to generate an initial set of elements, each element corresponding to the output of the heuristic assigned to each pattern recognizer; extracting identified relationships amongst the initial set of elements; modifying the initial set of elements to include the identified relationships to create an intermediate set of elements; comparing the intermediate set of elements against assigned values to emphasize or deemphasize each element in the intermediate set of elements to create a final set of elements; and using the final set of elements as a cognitive fingerprint representing a signature of the data extracted from the time frame, so that the signature can be compared to other cognitive fingerprints for further analysis. | 07-16-2015 |
20150220850 | System and Method for Generation of a Heuristic - A system and method for generating a heuristic is provided. A heuristic is capable of identifying data patterns. The method includes: extracting a data set from multiple input sources; creating a set of unique elements used across the data set; organizing the data set into a geometric structure; grouping portions of the data in the geometric structure into a plurality sub geometric structures; determining base attributes for each sub geometric structure using the set of unique elements; identifying trends in the base attributes among the sub geometric structures; and outputting the heuristic as a combination of the base attributes and the trends. | 08-06-2015 |
20150262060 | System and Method for Calculating Remaining Useful Time of Objects - An aspect of the present invention is to provide a system and method for predicting the remaining useful time of mechanical components such as bearings. Another aspect of the present invention is to provide a system and method for predicting the remaining useful time of bearings based on available condition monitoring data. Another aspect of the present invention is to provide a system and method for automatically deciding which columns of input information are the most significant for predicting the remaining useful life of bearings. Another aspect of the present invention is to provide a system and method for performing an analysis of both test bearings and training bearings and determining which training bearings are most similar to a given test bearing. Another aspect of the present invention is to provide a system and method for training an artificial neural network. | 09-17-2015 |
20150295926 | SYSTEMS AND METHODS FOR USING COGNITIVE FINGERPRINTS - A system and method for creating a core cognitive fingerprint. A core cognitive fingerprint can be used to capture the evolution of a system state and potentially respond with a predetermined action if the fingerprint falls within a threshold. The method includes: identifying a set of time frames within which data is extracted; providing a plurality of pattern recognizers; processing the extracted data through the plurality of pattern recognizers to generate an initial set of elements; extracting identified relationships amongst the initial set of elements; modifying the initial set of elements to include the identified relationships to create an intermediate set of elements; comparing the intermediate set of elements against assigned values to weigh each element in the intermediate set of elements to create a final set of elements; and using the final set of elements as a cognitive fingerprint. | 10-15-2015 |